skip to main content

MICROALGAE COMMUNITY AS AQUATIC QUALITY BIOINDICATOR IN PENITI ESTUARY WEST KALIMANTAN

Apriansyah Apriansyah  -  1Marine Science Department, Faculty of Mathematics and Natural Sciences, Universitas Tanjungpura, Indonesia
*Ikha Safitri scopus  -  1Marine Science Department, Faculty of Mathematics and Natural Sciences, Universitas Tanjungpura, Indonesia
Risko Risko  -  Marine Science Department, Faculty of Mathematics and Natural Sciences, Universitas Tanjungpura, Indonesia
Afdal Afdal  -  Oceanographic Research Center LIPI, Jl. Pasir Putih 1, Ancol Timur, Jakarta Utara, Indonesia
Sulastri Arsad  -  Department of Aquatic Resources Management, Faculty of Fisheries and Marine Science, Universitas Brawijaya, Indonesia

Citation Format:
Abstract
Estuaries are biogeochemical hot spots; they receive large inputs of nutrients from land and oceans to support high primary productivity rates. Estuaries also as a place for waste disposal allowing the accumulation that endangers the environment and organisms. Water quality assessment can be done by analyzing physical, chemical, and biological characteristics using microalgae. This study aimed to analyze the microalgae community as aquatic environment bioindicator. Survey method was used and sampling location was in four different sites of Peniti Estuary by purposive sampling. Identification of microalgae, density, biological indexes, and water quality measurements was taken in this research. The result showed microalgae community consists of 68 genera and Euglenophyceae was a component of microalgae with the highest percentage of abundance (60.93%). The most commonly found genera were Trachelomonas, Phacus, Lepocinclis, and Sphaerellopsis. The abundance of microalga was ranging from 0.5-2141.5 ind/L. Biological indexes indicate that Peniti estuary environment was belonging to moderately polluted and water eutrophication. The abundance of microalgae was influenced by physico-chemical factors such as temperature, current, nitrate and phosphate content.
Fulltext View|Download
Keywords: Microalgae, bioindicator, estuaries

Article Metrics:

  1. Adl, S.M., A.G. Simpson, C.E. Lane, L. Lukeš, D. Bass, S.S. Bowser. 2012. The Revised Classification of Eukaryotes. J. Eukaryot. Microbiol. 59:429-514
  2. Agrawal, T. 2018. Evaluation of the Algal Biodiversity of the Ruparael Area of the Alwar District of Rajasthan. Biodiversity International Journal. 2(3): 306-308
  3. Al-Harbi, S.M. 2017. Epiphytic Microalgae Dynamics and Species Composition on Brown Seaweeds (Phaeophyceae) on the Northern Coast of Jeddah Saudi Arabia. Journal Oceanography and Marine Research. 5(1): 1-9
  4. Al. Hassany, J.S., Z. Zahraw, A. Murtadeh, H. Ali, N. Sulaaiman. 2012. Study of the Effect of Himreen Dam on the Phytoplankton Diversity in Dyala River, Iraq. Journal of Environmental Protection. 3: 940-948
  5. American Public Health Association (APHA). 2009. Standard Method for The Examination of Water and Wastewater. 22th Edition. American Public Health Association. Washington DC
  6. Andriansyah, T.R. Setyawati, and I. Lovadi. 2014. Kualitas Perairan Kanal Sungai Jawi dan Sungai Raya Dalam Kota Pontianak ditinjau dari Struktur Komunitas Mikroalga Perifitik. J. Protobiont. 3(1): 61-70
  7. Aquino, J., B. Flores, M. Naguit. 2010. Harmful Algal Bloom Occurence in Murcielagos Bay Admidst Climate Change. J. E-International Scientific Research. 2(4): 358-365
  8. Arifin, S.M., Izmiarti, and Chairul. 2015. Komunitas Fitoplankton di Sekitar Sungai Utama di Zona Litorial Danau Singkarak Provinsi Sumatera Barat. Journal of Natural Science. 4(3): 290-299
  9. Ariyadej, C., R. Tansakul, P. Tansakul, and S. Angsupanich. 2004. Phytoplankton diversity and its relationships to the physico-chemical environment in the Banglang Reservoir, Yala Province. Songklanakarin Journal of Scicience Technology. 26: 595-607
  10. Aryawati, R., D.G. Bengen, T. Prartono, H. Zulkifli. 2017. Abundance of Phytoplankton in the Coastal Waters of South Sumatera. Ilmu Kelautan. 22(1): 31-39
  11. Badan Standardisasi Nasional. 2005. SNI 06.6989.31-2005. Air dan Air Limbah – Bagian 31 : Cara Uji Kadar Fosfat dengan Spektrofotometer secara Asam Askorbat
  12. Badan Standardisasi Nasional. 2011. SNI 6989.79:2011. Air dan Air Limbah – Bagian 79 : Cara Uji Nitrat (NO3-N) dengan Spektrofotometer UV-visibel secara Reduksi Kadmium
  13. Badsi, H., H.O. Ali, M. Loudiki, A. Aamiri. 2012. Phytoplankton Diversity and Community Composition Long the Salinity Gradient of the Massa Estuary. American Journal of Human Ecology. 1(2): 58-64
  14. Barokah, G.R., A.K. Putri, and Gunawan. 2016. Kelimpahan Fitoplankton Penyebab HAB (Harmful Algal Bloom) di Perairan Teluk Lampung pada Musim Barat dan Timur. JPB Kelautan dan Perikanan. 11(2): 115-126
  15. Barus, T.A. 2004. Pengantar Limnologi: Studi tentang Ekosistem Air Daratan. Universitas Sumatera Utara. Medan
  16. Begon, M., L.H. John, R.T. Colin. 1986. Ecology. London: Blackwall Scientific Publication
  17. Borowitzka, M.A., P. Lavery, M. Keulen. 2006. Epiphytes of Seagrasses, in Seagrasses : Biology, Ecology, and Conservation. In: Larkum AWD, Orth RJ, Duarte CM (def.). Springer. Amsterdam. The Netherland
  18. Brahmana, P. 2014. Ekologi Laut. Universitas Terbuka. Tangerang. 412 hlm
  19. Breglia, S.A., N. Yubuki, M. Hoppenrath, and B.S. Leander. 2010. Ultra-structure and molecular phylogenetic position of a novel euglenozoan with extrusive episymbiotic bacteria: Bihospite bacati n.gen.etn.sp.(Symbiontida). BMC Microbiol. 10:145
  20. Casali, J.R., J. Gimenez, J. Diez, J.A. Mozos, D.V. de Lersundi, M. Goni, M.A. Campo, Y. Chahor, R. Gastesi, and J. Lopez. 2010. Sediment Production and Water Quality of Watersheds with Contrasting Land Use in Navarre (Spain). Agricultural Water Management. 97: 1683-1694
  21. Danilov, R.A., and N.G.A. Ekelund. 2000. The Use of Epiphyton and Epilithon Data as a Base for Calculating Ecological Indices in Monitoring of Eutrophication in Lakes in Central Sweden. The Science of the Total Environment. 248(2000): 63-70
  22. Duangjan, K. and K. Wołowski. 2013. New Taxa of Loricate Euglenoids Strombomonas and Trachelomonas from Thailand. Polish Botanical Journal. 58: 337-345
  23. Duangjan, K., K. Wołowski, Y. Peerapornpisal. 2014. New Records of the Phacus and Monomorphina (Euglenophyta) Taxa for Northern Thailand. Polish Botanical Journal. 59: 235-247
  24. Duressa, G., F. Assefa, and M. Jida. 2019. Assessment of Bacteriological and Physicochemical Quality of Drinking Water from Source to Household Tap Connection in Nekemte, Oromia, Ethiopia. Journal of Environmental and Public Health. 2019: 1-7
  25. Edler, L. and M. Elbrachter. 2010. The Utermohl Method for Quantitative Phytoplankton Analysis. In: Karlson, B., C. Cusack and E. Bresnan (Eds.) Microscopic and Molecular Methods for Quantitative Analysis. Intergovernmental Oceanographic Commission, United Nations Educational, Scientific and Cultural Organization. Spain. pp. 13-15
  26. Effendi, H. 2003. Telaah Kualitas Air bagi Pengelolaan Sumberdaya dan Lingkungan Perairan. Kanisius. Yogyakarta. 259 hlm
  27. Effendi, H. 2016. Telaah Kualitas Air. Yogyakarta. Kanisius
  28. El-Din, N.S., N.A.N. Shaltout, M.Z. Nassar, and A. Soliman. 2015. Ecological Studies of Epiphytic Microalgae and Epiphytic Zooplankton on Seaweeds of the Eastern Harbor, Alexandria, Egypt. American Journal of Environmental Sciences. 11(6): 450-473
  29. Fathi, A.A. and M.A. Al-Kahtani. 2009. Water Quality and Planktonic Communities in Al-Khadoud Spring, Al-Hassa, Saudi Arabia. American J. Environ. Sci. 5(3): 434-443
  30. Ferial, E.W. and M.A. Salam. 2016. Fisiologi, di dalam: Safitri, A. (ed). Erlangga: Jakarta
  31. Ganai, A.H. and S. Parveen. 2014. Effect of Physico-chemical Conditions on the Structure and Composition of the Phytoplankton Community in Wular Lake at Lankrishipora, Kashmir. International Journal of Biodiversity and Conservation. 6(1): 71-84
  32. Gholizadeh, M.H., A.M. Melesse, and L. Reddi. 2016. A comprehensive Review on water Quality Parameters Estimation Using Remote Sensing Techniques. Sensors. 16(8): 1298
  33. Hamuna, B., H.R.R. Tanjung, Suwito, H.K. Maury, and 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
  34. Haninuna, E.D.N., R. Gimin, L.M.R Kaho. 2015. Pemanfaatan Fitoplankton sebagai Bioindikator Berbagai Jenis Polutan di Perairan Intertidal Kota Kupang. Jurnal Ilmu Lingkungan. 13(2): 72-85
  35. Haumahu, S. 2004. Distribusi Spasial Fitoplankton di Teluk Ambon bagian Dalam. Ichtyos. 3: 91-98
  36. Herlina, N. Idiawati, I. Safitri. 2018. Diversitas Mikroalga Epifit Berasosiasi pada Daun Lamun Thalassia hemprichii di Pulau Lemukutan Kalimantan Barat. Jurnal Laut Khatulistiwa. 1(2): 37-44,
  37. Jati, S., C.C.J. Borsalli, and S. Train. 2018. Pigmented Euglenophyceae of a Lentic Environment at the Upper Paraná River Floodplain, Brazil. Acta Limnologica Brasiliensia. https://doi.org/10.1590/S2179-975X8417
  38. Kadim, M.K., N. Pasisingi, and A.R. Paramata. 2017. Kajian Kualitas Perairan Teluk Gorontalo dengan Menggunakan Metode STORET. Depik. 6(3): 235-241
  39. Kazi, T.G., M.B. Arain, M.K. Jamali, N. Jalbani, H.I. Afridi, R.A. Sarfraz, J.A. Baig, A.Q. Shah. 2009. Assessment of Water Quality of Polluted Lake Using Multivariate Statistical Techniques: A Case Study, Ecotox. Environ. Safe. 72(20): 301-309
  40. Kep MENLH. 2004. Keputusan Kantor Menteri Negara Lingkungan Hidup No.Kep 51/MENLH/I/2004. Tentang Baku Mutu Air Laut. 11 hlm
  41. Kersen P., K. Jonne, B. Martynas, K. Natalja, D. Zane. 2011. Epiphytes and Associated Fauna on The Brown Alga Fucus vesiculosus in the Baltic and the North Seas in Relation to Different Abiotic and Biotic Variables. Marine Ecology. 32(1): 87-95
  42. Kim, J.I., W. Shin, and R.E. Triemer. 2010. Multigene Analyses of Photosynthetic Euglenoid and New Family Phacaceae (Euglenales). J. Phycol. 46: 1278-1287
  43. Kordi, M.G.H. and A.B. Tancung. 2010. Pengelolaan Kualitas Air dalam Budidaya Perairan. Rineka Cipta. Jakarta
  44. Krebs, C.J. 1985. Experimental Analysis of Distribution and Abundance. 3rd Ed. New York: Haper and Row Publisher
  45. Kusumaningtyas, M.A., R. Bramawanto, A. Daulat, and W.S. Pranowo. 2014. Kualitas Perairan Natuna pada Musim Transisi. Depik. 3(1): 10-20
  46. Larasati, C.E.; M. Kawaroe, and T. Prartono. 2015. Karakteristik Diatom di Selat Rupat Riau. Jurnal Ilmu Kelautan. 20(4): 1-10
  47. Legina, L.S.; H. Sahala, and M.R. Muskananfola. 2014. Distribusi Fitoplankton Berdasarkan Kedalaman yang Berbeda di Perairan Pulau Menjangan Kecil Karimunjawa. J. Maquares Manangrment of Aquatic Resources. 3(4): 9-14
  48. Megawati, C., M. Yusuf, and L. Maslukah. 2014. Sebaran Kualitas Perairan Ditinjau dari Zat Hara, Oksigen Terlarut dan pH di Perairan Selatan Bali Bagian Selatan. Jurnal Oseanografi. 3(2): 142-150
  49. Minsas, S. 2013. Komposisi dan Kandungan Klorofil-a Fitoplankton Pada Musim Timur dan Barat di Estuari Sungai Peniti, Kalimantan Barat. [Tesis]. Program Pasca Sarjana, Fakultas Matematika dan Ilmu Pengetahuan Alam, Universitas Andalas, Padang
  50. Mulyani, R. Widiarti, W. Wardhana. 2012. Sebaran Spesies Penyebab Harmful Algal Bloom (HAB) di Lokasi Budidaya Kerang Hijau (Perna viridis) Kamal Muara Jakarta Utara pada Bulan Mei 2011. J. Akuatika. 3(1): 28-39
  51. Naselli-Flores, L., R. Termine, R. Barone. 2016. Phytoplankton Colonization Patterns. Is Species Richness Depending on Distance among Freshwaters and on their Connectivity? Hydrobiologia. 764: 103-113
  52. Nixdorf B., U. Mischke, J. Rücker. 2003. Phytoplankton Assemblages and Steady State in Deep and shallow Eutrophic Lakes – An Approach to Differentiate the Habitat Properties of Oscillatoriales. Hydrobiologia. 502: 111-121
  53. Nontji, A. 2005. Laut Nusantara. Djambatan. Jakarta
  54. Nugroho, A. 2006. Bioindikator Kualitas Air. Universitas Trisakti. Jakarta
  55. Nurfadillah, N., N. Damar, and E.M. Adiwilaga. 2012. Komunitas Fitaplankton di Perairan Danau Laut Tawar, Kabupaten Aceh Tengah, Provinsi Aceh. J. Depik. 1(2): 93-98
  56. Nybakken. J. W. 1988. Biologi Laut: Suatu Pendekatan Ekologis. Alih Bahasa: E.H. Eidman, Koesoebiono. D.G. Bengen, M. Hutomo, and S. Sukardjo. Gramedia. Jakarta. 480 hlm
  57. Odum, E.P. 1993. Dasar-Dasar Ekologi. Gajah Mada Univ Press. Yogyakarta
  58. Omura, T., M. Iwataki, V.M. Borja, H. Takayama, and Y. Fukuyo. 2012. Marine Phytoplankton of the Western Pacific. Kouseisha Kouseikaku Co. Ltd. Japan. 160 hlm
  59. Pęczuła W., A. Szczurowska, M. Poniewozik. 2014. Phytoplankton Community in Elary Stages of Reservoir Development - A Case of Study from the Newly Formed, Coloured, and Episodic Lake of Mining-Subsidence Genesis. Polish Journal of Environmental Studies. 23: 585-591
  60. Pello, F.S., E.M. Adiwilaga, N.V. Huliselan, and A. Damar. 2014. Pengaruh Musiman Terhadap Beban Masukkan Nutrien di Teluk Ambon Dalam. J. Bumi Lestari. 14(1): 63-73
  61. Poniewozik, M. and J. Juráň. 2018. Extremely High Diversity of Euglenophytes in a Small Pond in Eastern Poland. Plant Ecology and Evolution. 151(1): 18-34
  62. Poniewozik, M. 2007. Zmienność Zbiorowska Euglenin (Euglenophyta) w wybranych zbiornikach Pojezierza Łęczyńsko-Włodawskiego. PhD Thesis. The John Paul II Catholic University of Lublin, Lublin, Poland
  63. Poniewozik, M. 2009. Taxonomical Diversity within Trachelomonas genus in a Former, Small Clay-pit. Fragmenta Floristica et Geobotanica Polonica. 16: 415-424
  64. Purnawan, S., I. Dewiyanti, and T.M. Marman. 2016. Bioekologi Fitoplankton di Laguna Gampong Pulot (LGP) Kabupaten Aceh Besar. J. Omni-Akuatika. 12(2): 104-112
  65. Putra, A.W., Zahidah, and W. Lili. 2012. Struktur Komunitas Plankton di Sungai Citarum Hulu Jawa Barat. J. Perikanan Kelautan. 93-102
  66. Rangkuti, A.M., R.C. Muhammad, R. Ani, Yulma, and E.A. Hasan. 2017. Ekosistem Pesisir dan Laut Indonesia. Bumi Aksara. Jakarta. XXX hlm
  67. Rosada, K.K., Sunardi, T.D.K. Pribadi, and S.A. Putri. 2017. Struktur Komunitas Fithoplankton pada Berbagai Kedalaman di Pantai Timur Pananjung Pangandaran. J. Biodjati. 2(1): 30-37
  68. Round, F.E. 1983. Biologia Das Algas. 2 ed. Guanabara Dois. Rio de Janeiro
  69. Sagala, E.P. 2013. Dinamika dan Komposisi Chlorophyceae pada Kolam Pemeliharaan Ikan Gurame Berumur Satu Tahun dalam Kolam Permanen di Keluarahan Bukit Lama Kecamatan Hilir Barat Palembang. Prosiding Semirata FMIPA Universitas Lampung. 1(1): 235-242
  70. Salmaso, N. and L. Cerasino. 2012. Long-Term Trends and Fine Year-to-Year Tuning of Phytoplankton in Large Lakes are Ruled by Eutrophication and Atmospheric Modes of Variability. Hydrobiologia. 698: 17-28
  71. Salmin. 2005. Oksigen Terlarut (DO) dan Kebutuhan Oksigen Biologi (BOD) Sebagai Salah Satu Indikator untuk Menentukan Kualitas Perairan. J. Oseana. 30(3): 21-26
  72. Sanusi, H.S. 2006. Kimia Laut Proses Fisik Kimia dan Interaksinya dengan Lingkungan. Departemen Ilmu dan Teknologi Kelautan, Fakultas Perikanan dan Ilmu Kelautan, Institut Pertanian Bogor. Bogor
  73. Schaduw, J.N.W., E.L.A. Ngangi, and J.D. Mudeng. 2013. Land Suitability of Seaweed Farming in Minahasa Regency North Sulawesi Province. J. Aqua. Science. Mangement. 2337-4403
  74. Setiabudi, G.I., D.G. Bengen, H. Effendi, O.K. Radjasa. 2016. The Community Structure of Phytoplankton in Seagrass Ecosystem and its Relationship with Environmental Characteristics. Biosaintifika. 8 (3): 257-269
  75. Shannon, C.E. and W. Wiener. 1949. The Mathematical Theory of Communication. University of Illinois Press. Urbana. 125 hlm
  76. Simanjuntak, M. 2009. Hubungan Faktor Lingkungan Kimia, Fisika Terhadap Distribusi Plankton di Perairan Belitung Timur, Bangka Belitung. Journal of Fisheries Sciences. 11(1): 31-45
  77. Simanjuntak, M. 2012. Kualitas Air Laut Ditinjau Dari Aspek Zat hara, Oksigen Terlarut dan pH di Perairan Banggai, Sulawesi Tengah. J. Ilmu dan Teknologi Kelautan. 4(2): 290-303
  78. Siregar, L.L., S. Hutabarat, and M.R. Muskananfola. 2014. Distribusi Fitoplankton Berdasarkan Waktu dan Kedalaman yang Berbeda di Perairan Pulau Menjangan Kecil Karimunjawa. J. Maquares. 3(4) 9-14
  79. Soedibjo, B.S. 2006. Struktur Komunitas Fitoplankton dan Hubungannya dengan beberapa Parameter Lingkungan di Perairan Teluk Jakarta. Oseanologi dan Limnologi di Indonesia. 40: 65-78
  80. Suryono, T., and J. Sudarso. 2019. Hubungan Komposisi dan Kelimpahan Perifiton dengan Kualitas Air di Sungai dan Danau Oxbow di Palangka Raya pada Kondisi Air Dangkal. LIMNOTEK Perairan darat Tropis di Indonesia. 26(1): 23-38
  81. Tabor, M., M. Kibret, and B. Abera. 2011. Bacteriological and Physicchemical Quality of Drinking Water and Hygiene-Sanitation Practices of the Consumers in Bahir Dar City, Ethiopia. Ethiopian Journal of Health Sciences. 21(1): 19-26
  82. Tomas, C.R., G.R. Hasle, E.E. Syvertsen, K.A. Steidinger, K. Tangen. 1996. Identifying Marine Diatoms and Dinoflagellates. Academic Press, Inc. United Kingdom. 613 hlm
  83. Tomas, C.R., G.R. Hasle, E.E. Syvertsen, K.A. Steidinger, K. Tangen, J. Throndsen, B.R. Heimdal. 1997. Identifying Marine Phytoplankton. Academic Press, Inc. United Kingdom. 875 hlm
  84. Train, S., and L.C. Rodrigues. 2004. Phytoplankton Assemblages. In S.M. Thomaz, A.A. Agostinho, and N.S. Hahn, ed. The Upper Paraná River Floodplain: Physical Aspects, Ecology and Conservation. Netherlands: Backhuys. pp. 103-124
  85. Warhate, S.R., M.K.N. Yenkie, M.D. Chaudhari, W.K. Pokale. 2006. Impacts of Mining Activities on Water and Soil. J. Environ. Sci. Eng. 48(2): 81-88
  86. Wisudyawati, D. 2014. Studi Perbandingan Kemampuan Skeletonema sp. dan Chaetoceros sp. Sebagai Agen Biremediasi Fitoakumulasi Terhadap Logam Berat Timbal (Pb). [Skripsi]. Fakultas Perikanan dan Kelautan, Universitas Airlangga, Surabaya
  87. Witkowski, A., H. Lange-Bertalot, and D. Metzeltin. 2000. Diatom Flora of Marine Coasts I, Koeltz Scientific Books. Germany
  88. Wołowski, K. and F. Hindák. 2004. Taxonomic and Ultrastructural Studies of Trachelomonas Ehrenberg emend. Deflandre (Euglenophyta) from Slovakia. Nova Hedwigia. 78: 179-207
  89. Wołowski, K. and F. Hindák. 2005. Atlas of Euglenophytes. Bratislava, Veda
  90. Wołowski, K. and P.L. Walne. 2007. Strombomonas and Trachelomonas species (Euglenophyta) from South-Eastern USA. European Journal of Phycology. 42: 409-431
  91. Wołowski, K. 2011. Phylum Euglenophyta. In: D.M. John, B.A. Whitton, and A. Brook (eds). The Freshwater Algal Flora of the British Isles. 2nd ed. pp 181–239. Cambridge University Press. Cambridge
  92. Yamaji. 1984. Illustration of the Marine Plankton of Japan. Hoikusho, Osaka, Japan. 369p
  93. Yubuki, N., V.P. Edgcomb, J.. Bernhardt, and B.S. Leander. 2009. Ultrastructure and Molecular Phylogeny of Calkinsia aureus: Cellular Identity of a Novel Clade of Deep-Sea Euglenozoans with Epibiotic Bacteria. BMC Microbiol. 9:16
  94. Zhou, H., C. Jiang, L. Zhu, X. Wang, X. Hu, J. Cheng, and M. Xie. 2011. Impact of Pond and Fence Aquaculture on Resevoir Environment. Water Science and Engineering. 4(1): 92-10

Last update:

No citation recorded.

Last update: 2024-11-22 10:33:40

No citation recorded.