Peta Tematik Kesesuaian Paramater Fisika Air Untuk Budidaya Rumput Laut (Eucheuma cottoni)

  • Abdul Muqsith Fakultas Sains dan Teknologi, Universitas Ibrahimy, Situbondo
  • Abdul Wafi Fakultas Sains dan Teknologi, Universitas Ibrahimy, Situbondo
  • Heri Ariadi Fakultas Perikanan, Universitas Pekalongan, Pekalongan
Keywords: Water quality, Eucheuma cottoni, Mapping, Seaweed, GIS

Abstract

Seaweed is a commodity that widely cultivated in coastal waters. The purpose of this study was to map the level of water physics parameters suitability for seaweed (Eucheuma cottoni) cultivation activities in Banyuputih District, Situbondo Regency. This research was conducted in January-March 2019 with the concept of field research and spatial analysis of the parameter data included the temperature, salinity, current, brightness, and water depth which were then analyzed using the Inverse Distance Weighting (IDW) method and overlay on the GIS (Geographic Information System) application to create a visualization model for thematic land suitability maps. The results showed that all physical parameters were still suitable for seaweed cultivation activities. Temperature and salinity parameters fluctuated dynamically with temperature values ​​of 27.2±1.3-28.0±1.5 and salinity 29.0±0.7-30.1±0.6. Meanwhile, the current parameters, brightness, and depth of the waters fluctuated steadily with values ​​for current parameters 17.2±1.1-37.0±2.2, brightness 4.9±0.5-6.6±0.2, and depth 6.8±0.3-10.9±0.2. All water parameters were described in the thematic map display for land suitability based on geographic information system data. So as for the conclusions of this study, based on the condition of the physical parameters of the water (salinity, temperature, current, brightness, and depth), the condition of the waters in the coastal area of ​​Banyuputih District was very feasible to be used as a place for seaweed (Eucheuma cottoni) cultivation which was depicted through the description of the thematic map figure.

Downloads

Download data is not yet available.

References

Abdullah, A.A. 2011. Teknik Budidaya Rumput Laut (Kappaphycus alvarezii) dengan Metode Rakit Apung di Desa Tanjung, Kecamatan Saronggi, Kabupaten Sumenep, Jawa Timur. Jurnal Ilmiah Perikanan dan Kelautan 3(1): 21-26.

Ariadi, H. 2014. Kajian Model Kemitraan Antara Pembenih Ikan Dan Balai Benih Ikan (BBI) Klemunan Dalam Usaha Pembenihan Dan Pemasaran Benih Ikan Nila (Oreochromis niloticus) Di Kecamatan Wlingi, Kabupaten Blitar. Malang: Universitas Brawijaya.

Ariadi, H. 2019. Konsep Pengelolaan Budidaya Udang Vannamei (Litopenaeus vannamei) Pola Intensif Berdasarkan Tingkat Konsumsi Oksigen Terlarut. Malang: Universitas Brawijaya.

Ariadi, H. 2020. Oksigen Terlarut dan Siklus Ilmiah Pada Tambak Intensif. Bogor: Guepedia.

Ariadi, H., dan Abidin Z. 2019. Study Of Partnership Pattern Among Farmers Of Tilapia Fish (Oreochromis niloticus) And Fish Breeding Centre Klemunan In Wlingi Of Blitar Regency. ECSOFIM: Economic and Social of Fisheries and Marine Journal 6(02): 194-201.

Ariadi, H., Mahmudi M., Fadjar M. 2019. Correlation between density of vibrio bacteria with Oscillatoria sp. abundance on intensive Litopenaeus vannamei shrimp ponds. Research Journal of Life Science 6(2): 114-129.

Ariadi, H., Fadjar M., Mahmudi M. 2019. Financial Feasibility Analysis of Shrimp Vannamei (Litopenaeus vannamei) Culture in Intensive Aquaculture System with Low Salinity. ECSOFiM (Economic and Social of Fisheries and Marine Journal) 7(01): 95-108.

Ariadi, H., Fadjar M., Mahmudi M., Supriatna. 2019. The relationships between water quality parameters and the growth rate of white shrimp (Litopenaeus vannamei) in intensive ponds. Aquaculture, Aquarium, Conservation & Legislation 12(6), 2103-2116.

Ariadi, H., Pandaingan I.A.H., Soeprijanto A., Maemunah Y., Wafi A. 2020. Effectiveness of Using Pakcoy (Brassica rapa L.) and Kailan (Brassica oleracea) Plants as Vegetable Media for Aquaponic Culture of Tilapia (Oreochromis sp.). Journal of Aquaculture Development and Environment (JADE) 3(2): 156-162.

Ariadi, H., Wafi A., Fadjar M., Mahmudi M. 2020. Tingkat Transfer Oksigen Kincir Air Selama Periode Blind Feeding Budidaya Intensif Udang Putih (Litopenaeus vannamei). JFMR (Journal of Fisheries and Marine Research) 4(1): 7-15.

Ariadi, H., Wafi A., Supriatna. 2020. Water Quality Relationship with FCR Value in Intensive Shrimp Culture of Vannamei (Litopenaeus vannamei). Samakia: Jurnal Ilmu Perikanan 11(1): 44-50.

Ariadi, H., Wafi A., Madusari B.D. 2021. Dinamika Oksigen Terlarut (Studi Kasus Pada Budidaya Udang). Indramayu: Penerbit ADAB.

Ariadi, H., Syakirin M.B., Pranggono H., Soeprapto H., Mulya N.A. 2021. Kelayakan Finansial Usaha Budidaya Udang Vaname (L. vannamei) Pola Intensif Di PT. Menjangan Mas Nusantara, Banten. AKULTURASI: Jurnal Ilmiah Agrobisnis Perikanan 9(2): 240-249.

Ariadi, H., Wafi A., Musa M., Supriatna. 2021. Keterkaitan Hubungan Parameter Kualitas Air Pada Budidaya Intensif Udang Putih (Litopenaeus vannamei). Samakia: Jurnal Ilmu Perikanan 12(1): 18-28.

Ariadi, H., Pranggono H., Ningrum L.F., Khairoh N. 2021. Studi Eco-Teknis Keberadaan Tempat Pelelangan Ikan (TPI) Di Kabupaten Batang, Jawa Tengah: Mini Riview. RISTEK: Jurnal Riset, Inovasi dan Teknologi Kabupaten Batang 5(2): 1-9.

Ariadi, H., Wafi A., Supriatna., Musa M. 2021. Tingkat Difusi Oksigen Selama Periode Blind Feeding Budidaya Intensif Udang Vaname (Litopenaeus vannamei). Rekayasa 14(2): 152-158.

Bhatti, E.H., Khan M.M., Shah S.A.R., Raza S.S., Shoabib M., Adnan M. 2019. Dynamics of Water Quality: Impact Assessment Process for Water Resource Management. Processes 7(102): 1-14.

Bulthuis, D.A. 1987. Effects of temperature on photosynthesis and growth of seagrasses. Aquatic Botany 27: 27-40.

Collier et al. (2014). Seagrass Proliferation Precedes Mortality during HypoSalinity Events: A Stress-Induced Morphometric Response. PLOS ONE 9(4), 1-11.

Collier, C.J., Ow Y.X., Langlois L., Uthicke S., Johansson C.L., O'Brien K.R., Hrebien V., and Adams M.P. 2017. Optimum Temperatures for Net Primary Productivity of Three Tropical Seagrass Species. Frontiers in Plant Science 8: 1-14.

Hamuna, B., Tanjung R.H.R., Suwito., Maury H.K., dan Alianto. 2018. Kajian Kualitas Air Laut dan Indeks Pencemaran Berdasarkan Parameter Fisika-Kimia Di Perairan Distrik Depapre, Jayapura. Jurnal Ilmu Lingkungan 16(1): 35-43.

Hernanto A.D., Rejeki S., Ariyati R.W. 2015. Pertumbuhanbudidaya Rumput Laut (Eucheuma cottoni Dan Gracilaria sp.) Dengan Metode Long Line Di Perairan Pantaibulu Jepara. Journal of AquacultureManagement and Technology 4(2): 60-66.

Kurtz, J.C., Detenbeck N.D., Engle V.D., Ho K., Smith L.M., Jordan S.J., and Campbell D. 2006. Classifying Coastal Waters: Current Necessity and Historical Perspective. Estuaries and Coastal 29(1): 107-123.

Li, R., Liu S., Zhang J., Jiang Z., Fang J. 2016. Sources and export of nutrients associated with integrated multi-trophic aquaculture in Sanggou Bay, China. Aquaculture Environment Interactions 8: 285–309.

Lirman, D., and Cropper, W.P. 2003. The influence of salinity on seagrass growth, survivorship, and distribution within Biscayne Bay, Florida: Field, experimental, and modeling studies. Estuaries 26: 131–141.

Madin, J., Chong V.C., Hartstein N.D. 2010. Effects of water flow velocity and fish culture on net biofouling in fish cages. Aquaculture Research 41: 602-617.

Mainassy, M.C. 2017. Pengaruh Parameter Fisika dan Kimia terhadap Kehadiran Ikan Lompa (Thryssa baelama Forsskal) di Perairan Pantai Apui Kabupaten Maluku Tengah. Jurnal Perikanan Universitas Gadjah Mada 19(2): 61-66 .

Moreira-Saporiti, A., Hoeijmakers D., Msuya F.E., Reuter H., Teichberg M. 2021. Seaweed farming pressure affects seagrass and benthic macroalgae dynamics in Chwaka Bay (Zanzibar, Tanzania). Regional Environmental Change 21: 1-11.

Muqsith et al. (2021). Financial Feasibility Analysis and Business Sensitivity Level on Intensive Aquaculture of Vaname Shrimp (Litopenaeus Vannamei). ECSOFiM (Economic and Social of Fisheries and Marine Journal) 8(2), 268-279.

Pancawati, D.N., Suprapto D., Purnomo P.W. 2014. Karakteristik Fisika Kimia Perairan Habitat Bivalvia Di Sungai Wiso Jepara. Diponegoro Journal Of Maquares 3(4): 141-146.

Patty, S.I., Nurdiansah D., Akbar N. 2020. Sebaran suhu, salinitas, kekeruhan dan kecerahan di perairan Laut Tumbak-Bentenan, Minahasa Tenggara. Jurnal Ilmu Kelautan Kepulauan 3(1): 77-87.

Permatasari dan Ariadi. (2021). STUDI ANALISIS KELAYAKAN FINANSIAL USAHA BUDIDAYA UDANG VANAME (L. vannamei) DI TAMBAK PESISIR KOTA PEKALONGAN. AKULTURASI: Jurnal Ilmiah Agrobisnis Perikanan 9(2), 284-290.

Salim, D., Yuliyanto., Baharuddin. 2017. Karakteristik Parameter Oseanografi Fisika-Kimia Perairan Pulau Kerumputan Kabupaten Kotabaru Kalimantan Selatan. Jurnal Enggano 2(2): 218-228.

Sawiya et al. (2021). Karakter Morfologi Fungia sp. Di Pulau Mamburit, Kabupaten Sumenep, Jawa Timur, Indonesia. Samakia: Jurnal Ilmu Perikanan 12(2), 126-130.

Sabhan., Pranowo W.S., Purba M., Koropitan A.F. 2020. Model Pembentukan Eddy Akibat Interaksi Arus dan Topografi di Teluk Palu, Sulawesi Tengah. POSITRON 10(1): 42 - 50.

Tupan, C.I., and Uneputty P.A. 2018. Growth and Production of Leaves Thalassia hemprichii on The Suli Coastal Waters, Ambon Island. International Journal of Marine Engineering Innovation and Research 2(2): 112-116.

Wafi et al. (2020). Model Simulasi Panen Parsial Pada Pengelolaan Budidaya Intensif Udang Vannamei (Litopenaeus vannamei). Samakia: Jurnal Ilmu Perikanan 11(2), 118-126.

Wafi et al. (2021). Oxygen Consumption of Litopenaeus vannamei in Intensive Ponds Based on the Dynamic Modeling System. Journal of Aquaculture and Fish Health 10(1), 17-24.

Wafi et al. (2021). Pemetaan Kesesuaian Lahan Budidaya Rumput Laut Di Kecamatan Banyuputih, Situbondo Berdasarkan Indikator Kimia Air. Samakia: Jurnal Ilmu Perikanan 12(2), 160-169.

Published
2022-04-26
How to Cite
Muqsith, A., Wafi, A., & Ariadi, H. (2022). Peta Tematik Kesesuaian Paramater Fisika Air Untuk Budidaya Rumput Laut (Eucheuma cottoni). Samakia : Jurnal Ilmu Perikanan, 13(1), 32-43. https://doi.org/10.35316/jsapi.v13i1.1619
Abstract viewed = 166 times
PDF (Bahasa Indonesia) downloaded = 285 times