Microalgae is known as a raw materials of pharmaceutical industry, it contains various chemical compounds such as protein, fatty acid, pigments and vitamins. The compound can be use as a basic ingredient of pharmaceutical also can be use as a treatment or prevention agent such as cancer and high cholesterol. Chlorella sp. is a green microalgae which can be found in Indonesia marine area, it also has a high enough of lipid. Compotition of fatty acid from marine microalgae Chlorella sp that cultivated with modification medium has been analyzed. Microalgae culture cultivated with GM 10% as a medium for 8 days. 51,55 L culture produced a 31,0537 gr dry biomass. 31,0537 gr dry biomass Soxhletation produced about 12,8818% w/w oil rendemen. The results of GC-MS analysis, there are 3 types of fatty acids identified in microalgae Chlorella Sp. The composition are palmitic acid (13,34%), linoleic acid (5,39%) and oleic acid (16,40%). Total fatty acid contained is 35,13%

Keywords:Chlorella sp, fatty acids, GC-MS.

Andersen, R. (2005). Algal Culturing Techniques, Elsiver Academic Press. Unitted Kingdom.

AOAC. 1984. Official Methods of Analysis of the Association of Official Analytical Chemists. Washington DC: Association of Official Analytical Chemists.

Barsanti, L., dan Gualtieri, P. (2006). Algae: Anatomy, Biochemistry, and Biotechnology. Taylor dan Francis Group Florida: USA

Becker. 1994. Microalgae Biotechnology and Microbiology. London: Cambridge University Press.

Brataningtyas, D.S. (2011). Potensi Mikroalga Laut Tropis Untuk Bahan Baku Senyawa Karoten dan Klorofil. Tesis. Program Studi Kimia: Institut Teknologi Bandung

Kawaroe, M,P. Tri dan D. Ratih. (2009). Pengembangan Kultivasi Mikroalga Penghasil Biofuel di Fotobioreaktor Dengan Menggunakan Media Air Limbah dan Gas Buang CO2 . Prosiding Seminar Hasil-Hasil Penelitian IPB 2009. Lembaga Penelitian dan Pengabdian Masyarakat. Institut Pertanian Bogor

Kawaroe, M., Prartono, T., Sunuddin, A., Sari, D.W., Agustine, D. (2010). Mikroalga: Potensi dan Pemanfaatannya untuk Produksi Bio Bahan Bakar. Bogor: IPB Press

Kumalasari, D., Fasya, G.A., Adi, K.T., Maunatin, A. (2014). Uji Aktivitas Antibakteri Asam Lemak Hasil Hidrolisis Minyak Mikroalga Chlorella sp. Alchemy. 3, 163 – 172

Kurnia, Dewi. (2013). Ekspresi biopigmen mikroalga chlorella sp. dan aplikasinya sebagai pemeka cahaya sel surya. Tesis, Program Studi Kimia: Institut Teknologi Bandung.

Rachmaniah, O.; Setyarini R. D.; Maulida, L. (2010). Pemilihan Metode Ekstraksi Minyak Alga dari Chlorella sp. dan Prediksinya sebagai Biodiesel. Prosiding Seminar Teknik Kimia Soehadi Reksowardojo.