Optimation of Spirulina sp. Growth in Walne Media with Variation of Urea and NaHCO3 Supplements

https://doi.org/10.22146/jtbb.53635

Lusiana Novia Caturwati(1*), Retno Herrani Setyati(2)

(1) Department of Biology Education, Faculty of Teacher Training and Education, Sanata Dharma University
(2) Department of Biology Education, Faculty of Teacher Training and Education, Sanata Dharma University
(*) Corresponding Author

Abstract


One alternative biofuel to substitute fossil fuels is bioethanol. Microalgae Spirulina sp. contains high carbohydrates, which has 17-25% potential to produce bioethanol. Urea and NaHCO3 can be used as additional nutrients sources of nitrogen and carbon to Spirulina sp. cultivation. Deficiency of nitrogen causing the cell’s enzymes change that shown through decreased lipid and chlorophyll synthesis. While deficiency of carbon can affect the growth rate. In this research, the growth rate of Spirulina sp. is analyzed using Optical Density (OD) method. The growth rate calculation is used to measure the growth of microalgae cells shown in the growth curve. This was a laboratory-scale method using CRD with 4 treatments and 5 replications namely treatment A addition of 0.36 g/500 ml urea without addition of NaHCO3, treatment B addition of 0.043 g/500 ml NaHCO3 without addition of urea, treatment C addition of 0.36 g/500 ml urea and 0.043 g/500 ml NaHCO3, and control without addition of urea or NaHCO3. The results indicated that addition of urea and NaHCO3 didn’t affect to OD and Spirulina sp. growth rate. The highest growth rate was treatment A with 0.00906/day of growth rate followed by treatment C which has 0.00865/day of growth rate. Treatment B and control treatment (K) showed a low growth rate. The maximum OD value obtained in treatment C was 0.674 cells/ml on the 10th day. This research can be used as the reference to larger scale of Spirulina sp. cultivation in the field of bioethanol production.


Keywords


Cultivation; Spirulina sp.; growth rate; optical density (OD)

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References

Ambarwati, Diyah Putri, Ervia Yudiati, Endang Supriyantini, and Lilik Maslukah, 2018, ‘Pola Pertumbuhan, Biomassa dan Kandungan Protein Kasar pada Kultur Mikroalga Skeletonema costatum Skala Massal dengan Konsentrasi Kalium Nitrat (KNO3) yang Berbeda’, Buletin Oseanogafi Marina, 2 (7), pp 75-80.

Christwardana, Marcellinus, Muhamad Maulana Azimatun Nur, and H. Hadiyanto, 2012, ‘Spirulina platensis: Potensinya Sebagai Bahan Pangan Fungsional’, Jurnal Aplikasi Teknologi Pangan, 1 (2) pp 1-4.

Dewi, Sri Suminar, 2016, ‘Teknologi Membran dalam Produksi Bioetanol’, Institut Teknologi Bandung, pp 1-6.

Hadiyanto, and Maulana Azim, 2012, ‘Mikroalga: Sumber Pangan dan Energi Masa Depan’, UPT UNDIP Press, Semarang, pp 1-18.

Juneja, Ankita, Ruben Michael Ceballos, and Ganti S. Murthy, 2013, ‘Effect of Environmental Factors and Nutrien Availability on the Biochemical Composition of Algae for Biofuels Production’, Journal Energies, (6) pp 4607-4638.

Kawaroe, Mujizat, Tri Prartono, and Ganjar Saefurahman, 2015, ‘Kepadatan dan Laju Pertumbuhan Spesifik Nannochloropsis sp. pada Kultivasi Heterotropik Menggunakan Media Hidrolisat Singkong’, Jurnal Omni-Akuatika, 11 (2) pp 15-19.

Melanie, Susiana and Diini Fithriani, 2015, ‘Rendemen Minyak dari Mikroalga Spirulina sp. dan Chlorella sp. dengan Teknik Pemecahan Dinding Sel’, Jurnal Widyariset, 1 (1) pp 61-70.

Muyassaroh, Rini Kartika Dewi, and Dwiana Anggorowati, 2018, ‘Kultivasi Mikroalga Spirulina platensis dengan Variasi Pencahayaan Menggunakan Lampu TL dan Matahari’, Prosiding Seminar Nasional Aplikasi Sains & Teknologi (SNAST), Pp 381-386.

Prayitno, Joko, 2016, ‘Pola Pertumbuhan dan Pemanenan Biomassa dalam Fotobioreaktor Mikroalga untuk Penangkapan Karbon’, Jurnal Teknologi Lingkungan, 1 (17) pp 45-52.

Sari, Fitria Yuli Anggita, I Made Aditya Suryajaya, and Hadiyanto, 2012, ‘Kultivasi Mikroalga Spirulina platensis dalam Media POME dengan Variasi Konsentrasi POME dan Komposisi Jumlah Nutrien’, Jurnal Teknologi Kimia dan Industri, 1 (1) pp 487-494.

Seftian, Deky, Ferdinand Antonius, and M. Faizal, 2012, ‘Pembuatan Etanol dari Kulit Pisang Menggunakan Metode Hidrolisis Enzimatik dan Fermentasi’, Jurnal Teknik Kimia, 1 (18) pp 10-16.

Suyono, Eko Agus, and Winarto Haryadi, 2006, ‘Optimasi Media untuk Produksi Biomassa Mikroalga Chaestoceros sp dan Skeletonema sp Isolat Jepara dan Analisis Kandungan Asam Lemaknya’, Jurnal Sains dan Teknologi, Pp 6-8.

Syaichurozzi, Iqbal, and Jayanudin, 2016, ‘Kultivasi Spirulina platensis pada Media Bernutrisi Limbah Cair Tahu dan Sintetik’, Jurnal Bahan Alam Terbarukan, 5 (2) pp 68-73.

Widianingsih, Ali Ridho, Retno Hartati, and Harmoko, 2008, ‘Kandungan Nutrisi Spirulina platensis yang Dikultur pada Media yang Berbeda’, Jurnal Ilmu Kelautan, 3 (13) pp 167-170.



DOI: https://doi.org/10.22146/jtbb.53635

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