The Effectiveness of the Use of Aquatic Plants (Lemna perpusilla, Landoltia punctata and Azolla pinnata) in the Phytoremediation Process of Catfish Aquaculture Wastewater
Asian Journal of Fisheries and Aquatic Research,
Page 10-19
DOI:
10.9734/ajfar/2020/v8i430144
Abstract
Aims: The purpose of this study was to determine aquatic plants (Lemna perpusilla, Landoltila punctata and Azolla pinnata) that have the most effective ability as phytoremediation agents for catfish cultivation wastewater.
Study Design: This research was conducted by an experimental method, with a Completely Randomized Design (CRD) consisting of three treatments and four replications.
Place and Duration of Study: This research is located at the Wet Laboratory (Ciparanje) of the Faculty of Fisheries and Marine Sciences, Padjadjaran University. Water quality testing is carried out at the Water Resources Laboratory of the Faculty of Fisheries and Marine Sciences. Research was carried out on 20 July-24 September 2019.
Methodology: The test wastewater was collected from catfish pond culture and put into twelve aquarium with a volume of 8 litre. Physical and chemical parameters observed include BOD5, dissolved oxygen, CO2 acidity, temperature, nitrate, and phosphate.
Results: Lemna perpusilla, Landoltia punctata and Azolla pinnata were able to improve the quality of catfish culture wastewater such as increasing the concentration of dissolved oxygen (DO) and pH, and reducingBOD5, CO2, nitrate and phosphate. Lemna perpusilla was able to reduce the concentration of BOD5, CO2,carbondioxide, nitrate and phosphate from catfish cultivation wastewater by75%; 77.7%; 23.4%; 44.2%, respectively, during the phytoremediation process, and Landoltia punctata was able to reduce the concentrations same parameters by 52%; 68.3%; 17.8%; 18.3% and Azolla pinnata by 41%; 84%; 15.3% and 28.4%.
Conclusion: Lemnaper pusillamay improve the quality of catfish culture wastewater better than Landoltia punctata and Azolla pinnata. Lemna perpusilla can be recommended as phytoremediation agents catfish cultivation wastewater to remediate organic matter before being discharged directly into water bodies.
Keywords:
- Azolla pinnata
- catfish
- Landoltia punctata
- Lemna perpusilla
- phytoremediation
How to Cite
References
Zahidah, Gunawan W, Subhan U. Daphnia spp. Pertumbuhan Populasi Daphnia spp. Yang diberi Pupuk Limbah Budidaya Karamba Jaring Apung (KJA) di Waduk Cirata yang telah difermentasi EM4. Jurnal Akuatik. 2012;3(1). (In Indonesian)
Andriyeni, Firman, Nurseha, Zulkhasyni. Studi Potensi Hara Makro Air Limbah Budidaya Lele Sebagai Bahan Baku Pupuk Organik. Journal Agroqua. 2017;15(1). (In Indonesian)
Rahman A. Kajian Kandungan Fosfat dan Nitrat Pengaruhnya terhadap Kelimpahan Jenis Plankton di Perairan Muara Sungai Kelayan. Kalimantan Scientiae. 2008;71:32-44.(In Indonesian)
Alberto AMP, Sigua GC. Phytoremediation: A green Technology to Remove Environmental Pollutants. American Journal of Climate Change. 2013;2:71-86.
Satriyana DD, Hayati R,Apriani I. Ekplorasi Tanaman Fitoremediator Aluminium (Al) yang Ditumbuhkan pada Limbah IPA PDAM Tirtakhatulistiwa Kota Pontianak. Program Studi Ilmu Tanah Universitas Tanjungpura. 2012;1-9. (In Indonesian)
Satya A, Chrismada T, Sulawesty F, Yoga GP, Mardianty T. Penyisihan Nutrient Dengan Kultur Eichornia crassipes Dalam Air Limbah Kolam Ikan Resirkulasi Semi Tertutup. Limnotek. 2014;21(2). (In Indonesian)
Novita E, Hermawan AAG, Wahyuningasih S. Komparasi Proses Fitoremdiasi Limbah Pembuatan Tempe Menggunakan Tiga Jenis Tanaman Air. Jurnal Agroteknologi. 2019;13(1). (In Indonesian)
Landesman L, Parker NC, Fedler CB, Konikoff M. Modeling Duckweed Growth In Wastewater Treatment Systems. Livestock Research for Rural Development. 2005;17(6).
Arifin SZ. Azolla Pembudidayaan dan Pemanfaatan pada Tanaman Padi. Penebar Swadaya. (In Indonesian). Jakarta; 2007.
Sadeghi R, Zarkami R, Sabetraftar K, Van Damme P. A Review of Some Ecological Factors Affecting The Growth of Azolla spp. Caspian Journal. 2013;11(1):65-76.
Chrismadha T, Mardianty T. Uji Tumbuh Lemna (Lemna perpusilla) dan Penyerapan Unsur Hara dalam Media Air Waduk Saguling. Journal Oseanografi dan Limnologi di Indonesia. (In Indonesian). 2012;38(33):369-376.
Shu, Fu Ping. Lemna. Fl. China 23. 2010;81–83.
Lee Y, Choi HJ, Shiga T. Taxonomic Identity of Landoltia punctata (Araceae, Lemnoideae) in Korea. Journal of Asia-Pasific Biodiversity; 2020 Available:https://doi.org/10.1016/j.japb.2020.04.003
Choi JY, Kim NY, Ryu TB. Distribution Characteristics and Ecosystem Risk Assessment of Dotted Duckweed (Landoltis punctata) in Jeju Island, Korea. Korean Journal of Environment and Ecology. 2018;32:425-439.
Arizal, A. Kandungan Nitrogen (N) Pada Azolla pinnata Yang Ditumbuhkan Pada Media Air Dengan Kadar P Yang Berbeda. Tesis. Fakultas Perikanan Dan Ilmu Kelautan. Institut Pertanian Bogor. (In Indonesian); 2013.
Hapsari TH, Darmanti S, Endah DH. Pertumbuhan Akar Batang dan Daun Gulam Katumpangan (Pilea michropylla (L.) Liebm.) Steam, Roots, Leaves, Growth of Katumpang. Pilea michropylla (L.) Liebm.) Weeds. Buletin Anatomi dan Fisiologi. (In Indonesian). 2018;3(1).
Nuraini, Felani. Phytoremediation of Tapioca Wastewater Using Water Hyacinth Plant (Eichhornia crassipes).. IRCMEDMIND.(In Indonesian). 2015;2(2).
Badan Standarisasi Nasional. Standar Ikan Lele Dumbo (Clarias Sp) 3-6484-2014. Jakarta.(In Indonesian)
Buntoro BH, Rohlan R, Sri T. Pengaruh Takaran Pupuk Kandang dan Intensitas Cahaya Terhadap Pertumbuhan dan Hasil Temu Putih. Vegetalika. (In Indonesian). 2014;3(4).
Surdina E, El-Rahimi SA, Hasri I. Pertumbuhan Azolla microphylla dengan Kombinasi Pupuk Kotoran Ternak. Jurnal Ilmiah Mahasiswa Kelautan dan Perikanan Unsyiah. 2016;1(3).(In Indonesian).
Leng RA, Stambolie JH, Bell R. Ducweed a Potential Higt Protein Feed Resource for Domestic Animals and Fish. The 7. 1994 th AAAI Animal Science Congress; 36-46.
Hidayah EN, Aditia W. Potensi dan Pengaruh Tanaman pada Pengolahan Air imbah Domestik dengan Sistem Constructed Wetland. Jurnal Ilmiah Teknik Lingkungan. 2010;2(2):11-18. (In Indonesian)
AgussetyadevyI, Sumiyati S, Sutrisno E. Fitoremediasi Limbah yang Mengandung Timbal (Pb) dan Kromium (Cr) dengan Menggunakan Kangkung Air (Ipomea aquatic). Jurnal Teknik Lingkungan. 2013;2:1-9.(In Indonesian)
Boys RS, Mattens SN. Nickel Hyra cucumulated by Thalaspu Montanum is Acutely Toxic to an Insect Herbivore. Oikor Journal. 1994;70:21-25.
Rovita GD, Purnomo PW, Soedarsono P. Starifikasi Vertikal N Oƒ–N dan PO„ -P pada Perairan di Sekitar Eceng Gondok (Eichornia crassipes Solms) dengan Latar Belakang Penggunaan Lahan Berbeda di Rawa Pening. Journal of Management of Aquatic Resources.2012;1(1):1-7.(In Indonesian).
Effendi H. Telaah Kualitas Air Bagi Pengelolaan Sumber Daya dan Lingkungan Perairan. Kanisius. 2003. Yogyakarta: 258.(In Indonesian)
Zahidah, Ilham T, Andriyani Y, Herawati H dan Sulawesty F. Water Quality Distibution in Situ Gunung Putri Bogor Regency, Indonesia. AJFAR. 2019;4(3):1-8.
Merian RD, Mubarak, Sutikno S. Analisis Kualitas Perairan Muara Sungai Dumai ditinjau dari Aspek Fisika, Kimia dan Biologi. Dinamika Lingkungan Indonesia. 2016;3(2):107-112. (In Indonesian)
Lipi.go.id. Lemna Tumbuhan Air Limbah yang Dapat di Jadikan pakan Ternak.
http://lipi.go.id/berita/lemna-tumbuhan-air-limbah-yang-bisa-jadi-alternatif-pakan-ternak/10747. (In Indonesian)
Cheng JJ, Anne S. Growing Dukweed to Recover Nutrients from Wastewater and for Production of Fuel Ethanol and Animal Feed. Clean Journal. 2002;37(1):17-26.
Dewi IR. Fiksasi N Biologis Pada Ekosistem Tropi. Tesis. Pascasarjana Universitas Padjadjaran. 2007;69. (In Indonesian)
Chaney RL, Brown SL, Angel JS. Potential use of Metal Hyperaccumulators. Mining Environmental Management Journal. 1995;3: 9-11.
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