Pemberian Pupuk Organik Cair (POC) Ekoenzim Terhadap Kepadatan Chlorella sp. Pada Skala Laboratorium

Authors

  • Finansius Ferdi Warayaan Politeknik Perikanan Negeri Tual
  • Saraswati Rahayaan Politeknik Perikanan Negeri Tual
  • Rumiati Wusuk Politeknik Perikanan Negeri Tual
  • Irwan Ismail Politeknik Perikanan Negeri Tual

DOI:

https://doi.org/10.31004/innovative.v5i4.19701

Keywords:

Chlorella sp, pupuk organik cair, ekoenzim limbah,, media kultur alternatif

Abstract

Mikroalga Chlorella sp。 Meskipun berpotensial sebagai pakan alami untuk akuakultur, namun
media kultur sintetis seperti KW 21 memiliki harganya relatif mahal dan tidak ramah terhadap
lingkungan. Penelitian ini menganalisis efektivitas pupuk organik cair (POC) dari ekoenzim
berbasis limbah buah dan sayuran sebagai media kultur alternatif. Rancangan ACAK Lengkap
(RAL) menggunakan empat perlakuan: Kontrol (KW 21 1 mL/L), POC 5, 10, dan 15 mL/L, masing -
masing memiliki tiga pengulangan. Parameter utama adalah kepadatan sel harian selama 13 hari
pengamatan. Hasil ANOVA menunjukkan bahwa perlakuan memiliki efek yang signifikan pada
kepadatan sel (F = 9,321; p <0,001; r² = 0,704). Perlakuan POC ekoenzim 5 ml/L menghasilkan
kepadatan tertinggi (7,227,77 x 10⁴ sel/mL) pada hari ke- 8, yang sangat berbeda nyata dari
perlakuan lain. Kualitas air optimal untuk semua perlakuan. Dosis ekoenzim 5 ml/L telah terbukti
efektif dan dapat menjadi media budidaya alternatif dan ramah lingkungan.

References

Aly, S. M., ElBanna, N. I., & Fathi, M. (2024). Chlorella in aquaculture: challenges,

opportunities, and disease prevention for sustainable development. In Aquaculture

International (Vol. 32, Issue 2, pp. 1559–1586). Springer Science and Business Media

Deutschland GmbH. https://doi.org/10.1007/s10499-023-01229-x

Andriani, Y., Farhatu Shiyam, D., Hasan, Z., & Mellyanawatie Pratiwy, F. (2023). Penggunaan

Berbagai Pupuk Alami Dalam Budidaya Chlorella sp. (The Use of Various Natural

Fertilizers in the Cultivation of Chlorella sp.). https://doi.org/10.32663/ja.v%vi%i.3238

Ashari, A. M., Apindiati, R. K., Amir, A., Dirhana, D., & Amran, A. (2024). Production and

Characterization of Nutrients from Ecoenzymes Based on Fruit Waste and Green

Vegetable Waste.

Jurnal Biologi Tropis,

24(2), 456–460.

https://doi.org/10.29303/jbt.v24i2.6988

Aulia Rahmawati, S. P., Fadjar, I. M., Maimunah, Y., P. S., Andayani, I. S., Arifki, A. A., &

Seleky, P. S. F. (2025). Pemupukan Perikanan Secara Berkelanjutan. Media Nusa

Creative (MNC Publishing).

Becker, E. W. (1994). Microalgae: Biotechnology and Microbiology. Cambridge University

Press.

Borowitzka, M. A., & Moheimani, N. R. (Eds.). (2013). Algae for biofuels and energy (Vol.

5). Dordrecht: Springer.

Cao, T. N. D., Mukhtar, H., L. L. T., Tran, D. P. H, Ngo, M. T. T., Pham, M. D. T., & Bui, X. T.

(2023). Roles of microalgae-based biofertilizer in sustainability of green agriculture

and food-water-energy security nexus. Science of The Total Environment. 870,

161927.

Carvalho, A., Brandão, H., Zemor, J. C., Cardozo, A. P., Vieira, F. N., Okamoto, M. H., Turan,

G., & Poersch, L. H. (2024). Effect of Organic or Inorganic Fertilization on Microbial

Flocs Production in Integrated Cultivation of Ulva lactuca with Oreochromis niloticus

and Penaeus vannamei. Fishes, 9(6). https://doi.org/10.3390/fishes9060191

Gonçalves, J., Freitas, J., Fernandes, I., & Silva, P. (2023). Microalgae as Biofertilizers: A

Sustainable Way to Improve Soil Fertility and Plant Growth. In Sustainability

(Switzerland) (Vol. 15, Issue 16). Multidisciplinary Digital Publishing Institute (MDPI).

https://doi.org/10.3390/su151612413

Hu, Q., Sommerfeld, M., Jarvis, E., Ghirardi, M., Posewitz, M., Seibert, M., & Darzins, A.

(2008). Microalgal triacylglycerols as feedstocks for biofuel production: Perspectives

and advances. In Plant Journal (Vol. 54, Issue 4, pp. 621–639).

https://doi.org/10.1111/j.1365-313X.2008.03492.x

Ismail, I., Lutur, E. M., & Irsan, I. (2025). Use (POC) Of Rice Washing Water, Coconut Water,

And Fermented Chicken Egg Shalls On The Density Of Chlorella Sp. Semi-Mass Scale.

Barakuda 45: Jurnal Ilmu Perikanan Dan Kelautan, 7(1), 1–9.

https://doi.org/10.47685/barakuda45.v7i1.604

Ismail, I., Tjoanda, M., Madubun, U., & Elen Marta Lutur, dan. (2024). Using Liquid Organic

Fertilizer (POC), Rice Washing Water, Coconut Water, and Fermented Ecoenzymes to Enhance The Growth of Chlorella sp. Lab. Scale. 17(1), 306–311.

https://doi.org/10.52046/agrikan.v17i1.306-311

Lin, J. L., & Sidik, F. (2024). Effect of extracellular organic matter (EOM) accumulation on

algal proliferation and disinfection by-product precursors during cyclic cultivation.

Environmental Science: Water Research and Technology.

https://doi.org/10.1039/d4ew00207e

Lutur, E. M., Ismail, I., Irsan, I., & Rumakabis, M. U. (2023). The Effect Of Liquid Organic

Fertilizer (Lof) From Rice Washing Water and Coconut Water Using Em4 On The

Growth Of Chorella sp. At Laboratory Scale. Barakuda’45: Jurnal Ilmu Perikanan Dan

Kelautan, 5(2), 225–233. https://doi.org/10.47685/barakuda45.v5i2.465

Martens, N., Ehlert, E., Putri, W., Sibbertsen, M., & Schaum, C. E. (2024). Organic

compounds drive growth in phytoplankton taxa from different functional groups.

Proceedings of the Royal Society B: Biological Sciences, 291(2016).

https://doi.org/10.1098/rspb.2023.2713

Mastropetros, S. G., Tsigkou, K., Cladas, Y., Priya, A. K., & Kornaros, M. (2023). Effect of

Nitrogen, Salinity, and Light Intensity on the Biomass Composition of Nephroselmis

sp.: Optimization of Lipids Accumulation (Including EPA). Marine Drugs, 21(6).

https://doi.org/10.3390/md21060331

Mukhlis A, Abidin Z, & Ibadur R. (2017). Pengaruh Konsentrasi Pupuk Ammonium Sulfat

Terhadap Pertumbuhan Populasi Sel Nannochloropsis sp. Jurnal Ilmiah Ilmu Biologi,

3(3), 149–155.

Nur, M., Jabbar, F. M., Hadi Program Studi Budidaya Perairan, K., Pertanian, F., & Islam

Riau, U. (2023). Liquid Organic Fertilizer (POC) Aplication with Different Doses on the

Abundance of Chlorella sp. In Jurnal Dinamika Pertanian Edisi XXXIX Nomor (Vol. 1).

Wang, C. A., Onyeaka, H., Miri, T., & Soltani, F. (2024). Chlorella vulgaris as a food

substitute: Applications and benefits in the food industry. In Journal of Food Science.

John Wiley and Sons Inc. https://doi.org/10.1111/1750-3841.17529

Wang, L., Min, M., Li, Y., Chen, P., Chen, Y., Liu, Y., Wang, Y., & Ruan, R. (2010). Cultivation

of green algae Chlorella sp. in different wastewaters from municipal wastewater treatment plant. Applied Biochemistry and Biotechnology, 162(4), 1174–1186.

https://doi.org/10.1007/s12010-009-8866-7

Waroy, D., Leisubun S, C., Tamher, S., & Ismail, I. (2023). Pemberian Pupuk Organik Cair

(Poc) Air Cucian Beras Menggunakan Em4 Terhadap Pertumbuhan Nannochloropsis

Sp. Pada Skala Laboratorium. INNOVATIF, 3, 11411–11420.

Downloads

Published

2025-08-31

How to Cite

Warayaan, F. F., Rahayaan, S., Wusuk, R., & Ismail, I. (2025). Pemberian Pupuk Organik Cair (POC) Ekoenzim Terhadap Kepadatan Chlorella sp. Pada Skala Laboratorium. Innovative: Journal Of Social Science Research, 5(4), 11424–11434. https://doi.org/10.31004/innovative.v5i4.19701

Issue

Vol. 5 No. 4 (2025): Innovative: Journal Of Social Science Research

Section

Articles

License

Copyright (c) 2025 Finansius Ferdi Warayaan, Saraswati Rahayaan, Rumiati Wusuk, Irwan Ismail

Creative Commons License

This work is licensed under a Creative Commons Attribution-ShareAlike 4.0 International License.

Similar Articles

1 2 3 4 5 6 7 8 9 10 > >> 

You may also start an advanced similarity search for this article.