PENGARUH PERBEDAAN WARNA CAHAYA LAMPU TERHADAP PERTUMBUHAN NANNOCLOROPSIS SP.

The Effect Of Different Colors Of Lighton The Growth Of Nannocloropsis sp.

Authors

  • Erwandani Erwandani Budidaya Perairan Universitas 45 Mataram
  • Luh Gede Sumahiradewi Budidaya Perairan Universitas 45 Mataram
  • Ni Kadek Puji Astuti Budidaya Perairan Universitas 45 Mataram
  • Charirun Nufus Budidaya Perairan Universitas 45 Mataram

DOI:

https://doi.org/10.59896/qalbu.v2i2.114

Keywords:

Nannocloropsis sp, light color, density

Abstract

One natural food whose presence is very important in aquatic ecosystems is phytoplankton. Nannochloropsis sp. is one of the microalgae that was developed as a natural food source. The nutritional content of Nannochloropsis sp. quite high where the protein content reaches 52.11%, carbohydrates 16%, fat 27.64%, vitamin C 0.85%, and chlorophyll-a 0.89%. As microalgae that grow through the process of photosynthesis, light is an important substance in their growth. This research used the experimental method Completely Randomized Design (CRD). Includes 4 treatments and 4 repetitions to obtain 16 experimental units. Treatment P1 uses red light, P2 uses yellow light, P3 uses blue light, and P4 uses white light. The data measured in this study were: nannocloropsis density, relative growth and self-doubling time. P1 gave the best results with an average density of 143,250 cells/mL, relative growth of 51.20%, and self-doubling time of 55 hours. Based on the results of the analysis of variance or ANOVA test, this research shows that differences in the color of light have a significant effect on population density and relative growth of Nannocloropsis sp. but it has no real effect on the self-doubling time. Furthermore, the results of water quality measurements such as temperature ranged between 27-29 ̊C, pH 8-8.2, DO 4.3-4.5, and salinity 35-37 ppt.

References

Arihanda, D. D. P., Suryono, G. W. Santosa. (2019). Kadar Total Lipid Mikroalga Nannochloropsis oculata Hibberd, 1981 Berdasarkan Perbedaan Salinitas dan Intensitas Cahaya. Journal of Marine Research. Vol. 8 (3): 229-236.

Damanik, R., S. Koamriyah, A. Putriningtyas. (2020). Pengaruh Penggunaan Warna Cahaya yang Berbeda Terhadap Pertumbuhan Nanochloropsis sp. Journal of Aquaculture Science. Vol. 5 (2): 99-109.

Erlania. (2009). Prospek Pemanfaatan Mikroalga Sebagai Sumber Pangan Alternatif dan Bahan Fortifikasi Pangan. Media Akuakultur Vol.4 No. 1: 59-66.

Lestari, U. A., A. Mukhlis, J. Priyono. (2019). Pengaruh Pupuk Nutrisil dan KW21+Si Terhadap Pertumbuhan Cahetoceros calcitrans. Jurnal Perikanan. Vol. 9 (1): 66-74.

Ma, X. N., T. P. Chen, B. Yang, J. Liu, F. Chen. (2016). Lipid Production from Nannochloropsis. Marine Drugs. Vol. 14 (61): 1-18.

Marthia, N. (2020). Pengaruh Jenis Kultur terhadap Konsentrasi Biomassa Nannochloropsis sp. Pasundan Food and Technology Journal. Vol. 7 (3): 97-101.

Mukhlis, A., Z. Abidin, I. Rahman. (2017). Pengaruh Konsentrasi Pupuk Ammonium Sulfat Terhadap pertumbuhan Populasi Sel Nannochloropsis sp. BioWallacea Jurnal Ilmiah Ilmu Biologi. Vol. 3: (149-155).

Naomi, A., J. Pertiwi, P. A. Permatasari, S. N. Dini., A. Saefullah. (2018). Keefektifan Spektrum Cahaya terhadap Pertumbuhan Tanaman Kacang Hijau (Vigna Radiata). Gravity. Vol. 4 (2): 93-102.

Omairah, R., G. Diansyah, F. Agustriani. (2019). Pengaruh Pemberian Amoniak dngan Dosis Berbeda terhadap Pertumbuhan Fitoplankton Nannochloropsis sp. Skala Laboratorium. Maspari journal. Vol. 11 (1): 23-30.

Prayitno, J. (2016). Pola Pertumbuhan dan Pemanenan Biomassa dalam Fotobioreaktor Mikroalga untuk Penangkapan Karbon. Jurnal Teknologi Lingkungan. Vol. 17 (1): 45-52.

Rizky, Y. A., I. Raya, S. Dali. (2012). Penentuan Laju Pertumbuhan Sel Fitoplankton Chaetoceros vulgaris, Dunaliella salina, dan Porphyridium cruentum. Skripsi. Fakultas MIPA, Universitas Hasanuddin Makassar.

Saputra, N. A., A. G. Tantu, M. Amin, Dahlifa, S. Budi. (2020). Pengaruh Warna Wadah Berbeda Terhadap Pertumbuhan Nannochloropsis Sp. Journal of Aquaculture Environment. Vol. 3 (1): 15-18.

Zamani, N. P. dan M. Muhaemin. Penggunaan Spektrofotometer sebagai Pendeteksi Kepadatan Sel Mikroalga Laut. (2016). Maspari journal. Vol. 8 (1): 39-48.

Zanello, L. dan F. Vianello. (2020). Microalgae of the Genus Nannochloropsis Chemical Composition Fungctional Implications for Human Nutrition. Journal of Functional Foods. Vol. 68: 1-11.

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Published

19-10-2024

How to Cite

Erwandani, E., Sumahiradewi, L. G., Astuti, N. K. P., & Nufus, C. (2024). PENGARUH PERBEDAAN WARNA CAHAYA LAMPU TERHADAP PERTUMBUHAN NANNOCLOROPSIS SP.: The Effect Of Different Colors Of Lighton The Growth Of Nannocloropsis sp. Al-Qalbu: Jurnal Pendidikan, Sosial Dan Sains, 2(2), 89–95. https://doi.org/10.59896/qalbu.v2i2.114

Issue

Vol. 2 No. 2 (2024): Oktober 2024

Section

Articles

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Copyright (c) 2024 Erwandani Erwandani, Luh Gede Sumahiradewi, Ni Kadek Puji Astuti, Charirun Nufus

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