Isolasi Biomaterial Silika dari Mikroalga Autotrofik dengan Variasi Air Laut Buatan

Penulis

  • Mochamad Fathurohman Universitas BTH Tasikmalaya
  • Yedy Purwandy Sukmawan Universitas BTH Tasikmalaya
  • Muhammad Rommi Fauzi Universitas BTH Tasikmalaya
  • Anindita Tri Kusuma Pratita Universitas BTH Tasikmalaya

Abstrak

Indonesian waters, are mostly marine, that have abundant biodiversity. One of the biodiversity is microalgae. Microalgae is one of the wealth of marine products which has become an alternative to be developed as food. One of the species of microalgae is Dunaleilla salina. This study aims to determine the biosilica material level from the microalgae Dunaleilla salina in artificial seawater media. Isolation of biosilica was carried out by cultivation using a variety of mediums, namely artificial seawater (ALB), krosok salt (GK) and growth media of FeCl3, Na2SiO3, KNO3 TSP fertilizer. Based on the results of the study, it was found that the different formulas of the growth media used in the microalgae Dunaleilla salina could affect the silica amount. Silica with krosok salt growth medium was 2.0483 gram, while for artificial seawater growth media it was 1.644 gram. SiO-Si which is the functional group of silica gel (SiO2)

Referensi

Armanda, D. T. (2013). Pertumbuhan Kultur

Mikroalga Diatom Skeletonema

costatum (Greville) Cleve Isolat Jepara

Pada Medium f/2 dan Medium Conway.

Bioma, 11(3), 55.

Borowitzka, M.A and C. J. Siva. (2007). The

Taxonomy of the Genus Dunaliella

(Chlorophyta, Dunaliellales) with

Emphasis on teh Marine and Halophilic

Species. Journal Applied Phycology.

: 568-590.

Elvin Delgado. (2017). Form wetland to

saltland: natural obstacles and

socioecological consequences in the

production of solar salt in Venezuela.

Society & Natural Resources, 1-5.

Fitriani, F., Fendi, F., & Rochmady, R. (2017).

Effect of inorganic fertilizer

(NPK+Silicate) with different dosage to

Skeletonema costatum

density on hatchery of tiger shrimp.

Akuatikisle: Jurnal Akuakultur, Pesisir

Dan Pulau-Pulau Kecil, 1(1), 11.

https://doi.org/10.29239/j.akuatikisle.1.

11-18

Gunawan, G. M., Suhendar, D., Sundari, C.

D. D., Ivansyah, A. L., Setiadji, S., &

Rohmatulloh, Y. (2019). Sintesis Zeolit

Silikalit-1 Menggunakan Limbah

Tongkol Jagung sebagai Sumber

Silika. Al-Kimiya, 4(2), 91–99.

https://doi.org/10.15575/ak.v4i2.5089.

Herawati, V. E, & Hutabarat, J. (2014).

Pengaruh pertumbuhan, lemak & profil

asam amino essensial Skeletonerma

cotatum dalam kultur massa

menggunakan media kultur teknis yang

berbeda. Jurnal Aquasains. 2(3): 221-

Isnansetyo Alim dan Kurniastuty (1995),

Teknik Kultur Phytoplankton

Zooplankton.Pakan Alam untuk

pembenihan organism laut, Kanisius,

Yokyakarta.

Juliana, V., Budiana, W., Farmasi, F., &

Bhakti, U. (2020). Uji Aktivitas

AntioksidanEkstrak Mikroalga

Porphyridium cruentum Menggunakan

Metode Peredam Radikal Bebas

DPPH. 3(3), 157–165.

Malle, A. I. (2019). Optimasi Pembentukan

Bioflok Dari Skeletonema sp., Nitzschia

sp. Dan Bakteri Probiotik Melalui

Variasi pH Secara In Vitro. Bionature,

(1), 23–34.

https://doi.org/10.35580/bionature.v19i

7309

Oren, A.. (2005).A Hundred Years of

Dunaliella Research : 1905-2005.

Licensee Biomed Centra. Israel. p.14.

Polle, J. E. W. and S. Qin. (2009).

Development of Genetica and

Molecular Tool Kits for Species of the

Unicellular Green Alga Dunaliella

(Chlorophyceae). In : A. Ben-Amotz,

ed. The Alga Dunaliella Biodiversity,

Physiology, Genomics and

Biotechnology. USA: Science

Publisher.pp. 403-409

Posudin, Y. I., N. P. Massjuk and G. G.

Lilitskaya.(2010). Photomovement of

Dunaliella teod.

Springer Fachmedian Wiesbaben.

Germany. Pp. 24-25

Prihantini, N. B., Putri, B., & Yuniati, R.

(2005). Pertumbuhan Chlorella spp.

dalam Medium Ekstrak Tauge (MET)

dengan variasi pH awal [The growth of

Chlorella spp. in Tauge Extract Medium

(TEM) with various initial pH]. Makara

Journal of Science, 9(1), 1–6.

http://journal.ui.ac.id/index.php/science/

article/view/457.

Putri, R. M., Wulansari, L., & Afnan, N. t.

(2019). Modul workshop biomaterial

isolasi dan karakterisasi biosilika dari

mikroalga di atom. The 6th GruberSoedigdo Lecture (GSL) & 24th

National Seminar of Indonsesia Society

for Biochemistry and Molecular Biology

(ISBMB). Institut Teknologi Bandung.

Richmond, A and Hu, Q. (2013). Handbook of

Microalgal Culture : Applied Phycology

and Biotechnology. 2nd Edition. Wiley

Blackwell. Hal : 3

Richmond, A. (2004). Biological Principles of

Mass Cultivation. In: Richmond, A.

Handbook of Microalgae Culture

Biotechnology and Applied Phycology.

-217.Britain : Blackwell.

Sapei, L., Padmawijaya, Samuel., K., Sutejo,

A., & Theresia, L. (2015). Temperatur

Leaching Menggunakan Asam Asetat.

Jurnal Teknik Kimia, 9(2), 38–43.

Sofyan, G. G. I., Alauhdin, M., & Susatyo, E.

B. (2013). Sintesis Dan Karakterisasi

Bahan Keramik Cordierite Dari Abu

Sekam Padi. Indonesian Journal of

Chemical Science, 2(2).

Syukri, I., Hindryawati, N., & S, R. . D. julia N.

(2017). Sintesis Silika dari Abu Sekam

Padi Termodifikasi 2-

merkaptobenzotiazol untuk Adsorpsi

Ion Logam Cd2+ dan Cr6+. Jurnal

Atomik, 02(2), 221–226.

Vansyah, A. T. L. U. I. (2017). Untuk Sintesis

Zeolit T. 4 (2).

Wahyuni, N., Masithah, E. D., Soemarjati, W.,

& Ulkhaq, M. F. (2018). Pola

Pertumbuhan Mikroalga Spirulina sp.

Skala Laboratorium yang Dikultur

Menggunakan Wadah yang Berbeda.

Majalah Ilmiah Bahari Jogja, 16(2), 89–

Diterbitkan

2022-01-25

Terbitan

Bagian

Articles