EFFECT OF COMBINATION INORGANIC FERTILIZER WITH RICE WASHING WATER ON THE NUTRITIONAL CONTENT OF Spirulina sp.

Devi Faustine Elvina Nuryadin; Bhatara Ayi Meata; Afifah Nurazizatul Hasanah; Fitri Afina Radityani; Jundi Putra Suryono; Wina Dharmayanti; Bunyamin Basyair; Ato Udin

doi:10.14710/ijfst.19.3.%p

DOI: https://doi.org/10.14710/ijfst.19.3.%25p

EFFECT OF COMBINATION INORGANIC FERTILIZER WITH RICE WASHING WATER ON THE NUTRITIONAL CONTENT OF Spirulina sp.

*Devi Faustine Elvina Nuryadin - UNTIRTA, Indonesia

Bhatara Ayi Meata - UNTIRTA, Indonesia

Afifah Nurazizatul Hasanah - UNTIRTA, Indonesia

Fitri Afina Radityani - UNTIRTA, Indonesia

Jundi Putra Suryono - UNTIRTA, Indonesia

Wina Dharmayanti - UNTIRTA, Indonesia

Bunyamin Basyair - UNTIRTA, Indonesia

Ato Udin - UNTIRTA, Indonesia

BibTex Citation Data :

@article{IJFST57479,
    author = {Devi Faustine Elvina Nuryadin and Bhatara Ayi Meata and Afifah Nurazizatul Hasanah and Fitri Afina Radityani and Jundi Putra Suryono and Wina Dharmayanti and Bunyamin Basyair and Ato Udin},
    title = {EFFECT OF COMBINATION INORGANIC FERTILIZER WITH RICE WASHING WATER ON THE NUTRITIONAL CONTENT OF Spirulina sp.},
    journal = {Saintek Perikanan : Indonesian Journal of Fisheries Science and Technology},
  volume = {19},
    number = {3},
    year = {2023},
    keywords = {: Inorganic fertilizer; Rice washing water; Spirulina sp.},
    abstract = {   Fertilizers commonly used in Spirulina sp. are walne, zarrouk, or guillard. However, the use of these fertilizers has several constraints, including the relatively expensive price, and requires quite a lot of nutrient solution composition in its manufacture. This problem is the reason for the search for alternative fertilizers for Spirulina sp. This study intends to provide information regarding the use of a combination of inorganic fertilizers from urea, plant catalyst, and GA with rice washing water as an alternative fertilizer which has a high nutritional content and can be used for Spirulina sp. it is followed by optical detachment analysis, water quality analysis, yield analysis, proximate analysis. The results of the study showed that the combination of inorganic fertilizers with rice washing water had a positive effect on the value of optical density with the fifth day of harvesting culture and proximate analysis of Spirulina sp. with the best treatment at P2    (   1% inorganic fertilizer and 3 mL/L rice washing water) with culture water quality values in optimum conditions at a temperature of 29°C, pH 8 and salinity 19 ppt with an average yield of wet biomass, protein, fat, water, ash, and carbohydrates respectively 3.27 ±0.65, 5.42%, 1.62%, 88.54%, 3.22%, and 1.20%.   },
   issn = {2549-0885},  doi = {10.14710/ijfst.19.3.%p},
    url = {https://ejournal.undip.ac.id/index.php/saintek/article/view/57479}
}

Citation Format:

Abstract

Fertilizers commonly used in Spirulina sp. are walne, zarrouk, or guillard. However, the use of these fertilizers has several constraints, including the relatively expensive price, and requires quite a lot of nutrient solution composition in its manufacture. This problem is the reason for the search for alternative fertilizers for Spirulina sp. This study intends to provide information regarding the use of a combination of inorganic fertilizers from urea, plant catalyst, and GA with rice washing water as an alternative fertilizer which has a high nutritional content and can be used for Spirulina sp. it is followed by optical detachment analysis, water quality analysis, yield analysis, proximate analysis. The results of the study showed that the combination of inorganic fertilizers with rice washing water had a positive effect on the value of optical density with the fifth day of harvesting culture and proximate analysis of Spirulina sp. with the best treatment at P2 (1% inorganic fertilizer and 3 mL/L rice washing water) with culture water quality values in optimum conditions at a temperature of 29°C, pH 8 and salinity 19 ppt with an average yield of wet biomass, protein, fat, water, ash, and carbohydrates respectively 3.27 ±0.65, 5.42%, 1.62%, 88.54%, 3.22%, and 1.20%.

Fulltext View|Download

Keywords: : Inorganic fertilizer; Rice washing water; Spirulina sp.

Article Metrics:

Article Info

Section: Research Articles

Language : EN

In Vol 19, No 3 (2023): SAINTEK PERIKANAN

Recent articles

Comparison Of Carlson Trophic State Index In Jatibarang Reservoir Using Landsat 8 OLI and Sentinel-2A MSI PREVALENCE OF PARASITES IN CRUSTACEAN AT PANMUTI BEACH, KUPANG REGENCY WATER QUALITY AND TROPHIC STATUS IN JATIBARANG RESERVOIR, SEMARANG More recent articles

Most cited articles

The Influence of Depth of Plantation to the Growth Rate of Eucheuma cottonii Seaweed Cultivated by Longline Method in Mlonggo Beach, Jepara Regency Fisheries Infrastructure Needs Analysis in Order to Capture Fisheries Development Based on Commodities of South Sumatra Province Soaking Period of Cooked Blood Cockle (Anadara granosa) Meat in Alginate Solution to Cadmium Content Reduction Biological Aspects of Goatfish (Upeneus spp) on Demak Waters Aplikasi Teknologi Aquaponic Pada Budidaya Ikan Air Tawar Untuk Optimalisasi Kapasitas Produksi More cited articles

[AOAC] Association of Official Analytical Chemist. (2005). Official methode of the analysis of the association of analytical of chemist. Arlington: The Association of Official Analytical Chemist
Afriani, S., Uju, Setyaningsih, I. (2018). Komposisi kimia Spirulina platensis yang dikultivasi dalam fotobioreaktor dengan fotoperiode berbeda. JPHPI. 21(3): 471-479
Amanatin DR, Rofidah E, Rosady SDN. 2013. Produksi protein sel tunggal (Pst) Spirulina sp. sebagai super food dalam upaya penanggulangan gizi buruk dan kerawanan pangan di indonesia. Institut Teknologi Sepuluh November. Surabaya. 7 hal (tidak diterbitkan)
Amanatin, D. R., Nurhidayat, T. (2013). Pengaruh Kombinasi konsentrasi media ekstrak tauge (MET) dengan pupuk urea terhadap kadar protein Spirulina sp. Jurnal Sains dan Seni Pomits. 2(2): 182-185. DOI: 10.12962/j23373520.v2i2.4054
Astriandari, A. (2018). Pemanfaatan limbah slurry POME untuk produksi biomassa dan fikosianin dari Spirulina platensis. [Tesis]. Bogor (ID): Sekolah Pascasarjana, Institut Pertanian Bogor
Bangun HH, Hutabarat S, Ain C. (2015). Perbandingan laju pertumbuhan Spirulina platensis pada temperatur yang berbeda dalam skala laboratorium. Diponegoro Journal of Maquares. 4(1): 74-81. DOI: 10.14710/marj.v4i1.7817
Benavente-Valdes, J. R., Aguilar, C., Juan, C.C., Alejandro, M., Julio, M. (2016). Strategies to enhance the production of photosynthetic pigments and lipids in chlorophycae species. Biotechnology Reports, 10: 117 – 125
Castro, E. D. M., Shannon, E., Ghannam, N. A. (2019). Effect of fermentation on enhancing the nutraceutical properties of Arthrospira platensis (Spirulina). Fermentation, 5(28):2-16, doi: 10.3390/fermentation5010028
Ciferri O. (1983). Spirulina the edible microorganism. Microbiological Reviews. 47(4): 551-578. DOI: 10.1128/mr.47.4.551-578.1983
Costa, J. A. V., Colla, L. M., Filho, P. D., Kabke, K., Weber, A. (2002). Modelling of Spirulina platensis growth in fresh water uing response surface methodology. World J Microbiol Biotechnol, 18(1): 603-607, doi: 10.1023/A:1016822717583
Daud, A., Suriati, Nuzulyanti. (2019). Kajian Penerapan faktor yang mempengaruhi akurasi penentuan kadar air metode thermogravimetri. LUTJANUS, 24(2): 11-16. doi: 10.51978/jlpp.v24i2.79
Guntoro, W., Yessy, A. R., Didik, U. P. (2017). Peranan plant catalyst dan pupuk kompos terhadap pertumbuhan dan hasil tanaman sawi (Brassica juncea). Agritrop, 1(1): 59-65, doi: 10.32528/agr.v14i1.411
Hasim, Akram M, Koniyo Y. (2022). Kinerja kepadatan Spirulina sp. yang diberik salinitas berbeda pada media kultur walne. Jurnal Sumberdaya Akuatik Indopasifik. 6(2): 141-152. DOI: 10.46252/jsai-fpik-unipa.2022
Herawati, V. E., Hutabarat, J. (2014). Pengaruh pertumbuhan lemak dan profil asam amino esensial Skeletonema costatum dalam kultur massal menggunakan media kultur teknis yang berbeda. AQUASAINS, 3(1): 221-226, e-ISSN: 2579-7638
Hindarti, F., Ayuningtyas, E. (2020). Pengembangan teknik kultivasi Spirulina sp. sebagai sumber biomassa energi terbarukan dalam fotobioreaktor airlift. Jurnal Energi dan Lingkungan, 16(1): 17-24, doi: 10.29122/jel.v16i1.4578
Hu, Q. (2004). Environmental effects on cell composition. Dalam: Richmond, A (Ed). Handbook of Microalgal Culture: Biotechnology and Applied Science, hal 83- 93. Oxford: Blackwell Science Publishing
Isnansetyo A dan Kurniastuty. (1995). Teknik Kultur Phytoplankton dan Zooplankton.Yogjakarta: Kanisius. 116 hlm
Jung, F., Genge, K. A., Waldeck, P., Kupper, J. H. (2019). Spirulina platensis, a super food?. Journal Of Cellular Biotechnology, 5(1): 43-53, doi: 10.3233/JCB-189012
Kogoya, T., Dharma, I. P., Sutedja, I. N. (2018). Pengaruh pemberian dosis pupuk urea terhadap pertumbuhan tanaman bayam cabut putih (Amaranthus tricolor L.). Jurnal Agroekoteknologi Tropika, 7(2): 575-584, ISSN 2301-6515
Koyande, A. K., Chew, K. W., Rambabu, K., Tao, Y., Chu, D. T., Show, P. L. (2019). Microalgae: a potential alternative to health supplementation for humans. Food Science and Human Wellness, 8(1): 16-24, doi: 10.1016/j.fshw.2019.03.001
Lebeharia, S. M. (2016). Pertumbuhan dan kualitas biomassa Spirulina platensis yang diproduksi pada media zarouk [Tesis]. Jakarta: Program Studi Kimia, Fakultas Sains dan Teknologi, Universitas Islam Negeri Syarif Hidayatullah. 74 hlm
Leksono, A. W., Dian, M., Indah, A. Y. (2017). Penggunaan pupuk organik cair hasil fermentasi dari Azolla pinnata terhadap kepadatan sel Spirulina sp.. Jurnal Ilmu-ilmu Perikanan dan Budidaya Perairan, 12(1): 56-65, doi: 10.31851/jipbp.v12i1.1414
Lesmana, P. A., Diniarti, N., Setyono, B. D. H. (2019). Pengaruh penggunaan limbah air budidaya ikan lele sebagai media pertumbuhan Spirulina s. Jurnal Perikanan, 9(1): 50-65, doi: 10.29303/jp.v8i2.13
Liestianty, D., Rodianawati, I., Arfah, R. A., Assa, A., Patimah, Sundari, Muliadi. (2019). Nutritional analysis of Spirulina sp. to promote as superfood candidate. IOP Conference Series: Materials Science and Engineering, 509: 1-6, doi: 10.1088/1757-899X/509/1/012031
Mansouri, H., Talebizadeh, B. (2015). Effect of gibberellic acid on the cyanobacterium Nostoc linckia. J Appl Phycol, 28(1): 2187-2193, doi: 10.1007/s10811-015-0756-5
Mishra, T., Joshi, M., Singh, S., Jain, P., Kaur, R., Ayub, S., Kaur, K. (2013). Spirulina: the beneficial algae. Sciipub, 2(3): 21-35, ISSN-2277-6079
Murtiwuladari, M., Deshinta, T. M. A., Megawati, H., Rendha, K., Lois, H. S. T., Yetero, H. H., Krisdania, A., Novani, W. K., Yuli, K., Surya, S. P., Yoga, A. H., dan Gabriella, D. Y. A. (2020). Pengaruh suhu penyimpanan terhadap kualitas hasil panen komoditas Brassicaceae. Teknologi Pangan, 11(2):135-143, doi: https://doi.org/10.35891/tp.v11i2.2168
Muyassaroh, Dewi, R. K., Anggorowati, D. (2018). Kultivasi mikroalga Spirulina platensis dengan variasi pencahayaan menggunakan lampu tl dan matahari. Prosiding Seminar Nasional Aplikasi Sains dan Teknologi. 381-386. ISSN: 1979-911X
Prasetyo, T. F., Abghi, F. I., Harun, S. (2019). Implementasi alat pendeteksi kadar air pada bahan pangan berbasis internet of things. SMARTICS Journal, 5(2): 81-96, doi: https://doi.org/10.21067/smartics.v5i2.3700
Richmond, A. (1988). Spirulina. Dalam: Borowitza, M.A. dan L.J. Borowitzka. 1988. ed. Microalgae Biotechnology. Cambridge University Press, England. Hlm. 85-121
Sassano, C. E. N., Gioielli, L. A., Ferreira, L. S., Rodrigues, M. S., Sato, S., Converti, A. and Carvalho, JCM, (2010). Evaluation of the composition of continuously- cultivated Arthrospira (Spirulina) platensis using ammonium chloride as nitrogen source. Biomass Bioenergy, 34(12): 1732–1738, doi: 10.1016/j.biombioe.2010.07.002
Setyaningsih, I., Tarman, K., Satyantini, W. H., Barus, D. A. (2013). Pengaruh waktu panen dan nutrisi media terhadap biopigmen Spirulina platensis. JPHPI. 16(3): 191-198, doi: 10.17844/jphpi.v16i3.8055
Sirait, P. S., Setyaningsih, I., Tarman, K. (2019). Aktivitas antikanker ekstrak Spirulina yang dikultur pada media walne dan media organik. Jurnal Pengolahan Hasil Perikanan Indonesia, 22(1): 50-59, doi: 10.17844/jphpi.v22i1.25876
Soni RA, Sudhakar K, Rana RS. (2019). Comparative study on the growth performance of Spirulina platensis on modifying culture media. Energy Reports. 5: 327-336. DOI: 10.1016/j.egyr.2019.02.009
Sudarmadji, S., Haryono, B., dan Suhardi. (1989). Analisa Bahan Makanan dan Pertanian. Yogyakarta: Penerbit Liberty
Sudartini, Kurniati, F., Lisnawati, A. N. (2020). Efektivitas air cucian beras dan air rendaman cangkang telur pada bibit anggrek dendrobium. Jurnal Agro, 7(1):82-91, doi: 10.15575/1676
Ulya, S., Sedjati, S., Yudiati, E. (2018). Kandungan protein Spirulina platensis pada media kultur dengan konsentrasi nitrat (KNO3) yang berbeda. Buletin Oseonografi Marina. 7(2): 98-102, doi: 10.14710/buloma.v7i2.20109
Utomo ANS, Pande GSJ, Ayu PWKD. (2020). Pengaruh Penambahan Air Cucian Beras terhadap Laju Pertumbuhan Spirulina sp. Current Trends in Aquatic Science. 3(1): 15-22. E-ISSN: 2621-7473
Utomo, N. B. P., Winarti, Erlina, A. (2005). Pertumbuhan Spirulina platensis yang dikultur dengan pupuk inorganik (urea, tsp dan za) dan kotoran ayam. JAI, 4(1):41–48, doi: 10.19027/jai.4.41-48
Viqran, Abidin, Z., Mukhlis, A. (2018). Pengaruh penambahan pupuk organik guano dengan konsentrasi yang berbeda terhadap laju pertumbuhan Spirulina sp. Jurnal Perikanan. 8(2): 58-65 hlm, doi: 10.29303/jp.v8i2.119
Wahyuni N, Masithah ED, Soemarjati W, Suciyono, Ulkhaq MF. (2018). Pola pertumbuhan mikroalga Spirulina sp. skala laboratorium yang dikultur menggunakan wadah yang berbeda. Majalah Ilmiah Bahari Jogja. 16(2): 89-97. DOI: 10.33489/mibj.v16i2.147
Wardani, N. K., Supriyantini, E., Santosa, G. W. (2022). Pengaruh konsentrasi pupuk walne terhadap laju pertumbuhan dan kandungan klorofil-a Tetraselmis chuii. Journal of Marine Research, 11(1): 77-85, doi: 10.14710/jmr.v11i1.31732
Warganegara, G. R., Ginting, Y. C., Kushendarto. (2015). Pengaruh konsentrasi nitrogen dan plant catalyst terhadap pertumbuhan dan hasil tanaman selada (Lactuca sativa L.) secara hidroponik. Jurnal Penelitian Pertanian Terapan, 15(2): 100-106, doi: 10.25181/jppt.v15i2.116
Wicaksono, H. A., Satyantini, W. H., Masithah, E. D. (2019). The Spectrum of Light and Nutrients Required to Increase The Production of Pyhcocyanin Spirulina platensis. IOP Conference Series: Earth and Environmental Science. 236: 1-7,doi: 10.1088/1755-1315/236/1/012008
Wijiyanti, P., Hastuti, E. D., Haryanti, S. (2019). Pengaruh Masa Inkubasi Pupuk dari Air Cucian Beras Terhadap Pertumbuhan Tanaman Sawi Hijau (Brassica juncea L.). Buletin Anatomi dan Fisiologi, 4(1): 21-28, doi: 10.14710/baf.4.1.2019.21-28
Yunaning, S., Junaidi, Saptorini, Probojati, R. T. (2022). Pengaruh pemberian dosis pupuk kandang kambing dan pupuk urea terhadap pertumbuhan dan hasil tanaman jagung manis (Zea mays var.saccharata Sturt.). Jurnal Ilmiah Pertanian Nasional, 2(1): 71-85, doi: 10.30737/jintan.v2i1.2212

Last update:

No citation recorded.

Last update: 2024-11-22 03:32:19

No citation recorded.

The Authors submitting a manuscript do so on the understanding that if accepted for publication, copyright of the article shall be assigned to Saintek Perikanan journal ,Faculty Fisheries and Marine Science Universitas Diponegoro as the publisher of the journal. Copyright encompasses rights to reproduce and deliver the article in all form and media, including reprints, photographs, microfilms, and any other similar reproductions, as well as translations. Saintek Perikanan journal ,Faculty Fisheries and Marine Science Universitas Diponegoro and the Editors make every effort to ensure that no wrong or misleading data, opinions or statements be published in the journal. In any way, the contents of the articles and advertisements published in Saintek Perikanan journal are the sole and exclusive responsibility of their respective authors and advertisers.

The Copyright Transfer Form can be downloaded : [Copyright Transfer Form Saintek Perikanan]. The copyright form should be signed originally and send to the Editorial Office in the form of original mail, scanned document or fax :

Suryanti (Editor-in-Chief)

Editorial Office of Saintek Perikanan journal ,Faculty Fisheries and Marine Science Universitas Diponegoro Jl. Prof. Soedarto, Kampus Undip Tembalang, Semarang, Central Java, Indonesia 50275

Telp./Fax: (024) 7474698

Email: saintekjurnal@gmail.com