THE EFFECT OF MANGROVE DENSITY TO ESTUARY WATER QUALITY BASED ON PHYSIC-CHEMIST PARAMETERS AT WONOREJO, SURABAYA

Novirina Hendrasarie

Abstract


Fishery in estuary make changes function of mangrove land and decreased, so that it affect water quality. This study aims to determine mangrove density and relation with the quality of wonorejo estuary waters. The method uses purposive random sampling and line plot method with a 10x10 meter plot to determine the criteria for mangrove density and water quality tests based on physic-chemical parameters and then correlated to test the effect. The results of the water quality analysis at the Wonorejo estuary with the optimum value at station 5 have an average parameter value of temperature (29°C), brightness (22 cm), current speed (0.083 m/s), TSS (55 mg/L), pH (7.36), salinity (5.5), DO (1.709 mg/L), COD (42.4 mg/L), nitrate (0.18 mg/L), and phosphate (1.045 mg/L). The criteria for mangrove density at each station include low density, medium density, and high dense density. Physic-chemical parameters related to mangrove density are temperature, brightness, salinity, and COD. Estuarine waters based on physic-chemical parameters, namely 40.3% salinity, 33.7% COD, 30.9% brightness, 30.8% temperature, 14% nitrate, 11.4% TSS, 8.1% current velocity, 1 .3% DO, and 0.1% phosphate affected by mangrove density.

Keywords


Mangrove estuary; mangrove density; estuary water quality; wonorejo

Full Text:

PDF

References


AFRINA, KHAIRULLAH, DAN HELMI. (2020). Analisis Kualitas Air Drainase Irigasi Langkahan Jambo Aye Akibat Pasang Surut Untuk Budidaya Padi Sawah Di Desa Meunasah Tingkeum Kecamatan Madat Kabupaten Aceh Timur. Jurnal Ilmiah Mahasiswa Pertanian 5(1).

CITRA, LALIK S., SUPRIHARYONO, DAN SURYANTI. (2020). Analisis Kandungan Bahan Organik, Nitrat dan Fosfat pada Sedimen Mangrove Jenis Avicennia dan Rhizophora. Journal Of Maquares 9(2), 107-114.

DJAMALUDDIN RIGNOLDA. (2018). Mangrove Biologi, Konservasi, Rehabilitasi, dan Konservasi. Manado: Unsrat Press.

ELFRIDA, SETYOKO, INDRIATY. (2020). Analisis Serapan Logam Pb, Cu, dan Zn Pada Tumbuhan Bruguiera Gymnorrhiza dan Rhizophora Apiculata di Hutan Mangrove Kuala Langsa. Sainmatika Jurnal Ilmiah Matematika dan Ilmu Pengetahuan Alam 17(2), 117-125.

GUNTUR G., ADI TIYA YANUAR, SYARIFAH H. J. S., & ANDI K. (2017). Analisis Kualitas Perairan Berdasarkan Metode Indeks Pencemaran di Pesisir Timur Kota Surabaya. Jurnal Ilmu Perairan, Pesisir, dan Perikanan 6(1), 81-89.

HENDRASARIE, N DAN JANUAR. (2019). Pemetaan Kualitas Air Di Kali Surabaya Berdasar Indeks Makrovertebrata Benthos Dengan Model WinTWINS 2.3. Jurnal Envirotek 2(2).

HENDRAWATI, NIA DAN NOVIRINA HENDRASARIE. (2013). Desalinasi Air Payau Menggunakan Tanaman Mangrove. Jurnal Ilmiah Teknik 5(2).

KEMENTRIAN LINGKUNGAN HIDUP. (2004). Keputusan Menteri Lingkungan Hidup Nomor 201 Tahun 2004 tentang Kriteria Baku dan Pedoman Penentuan Kerusakan Mangrove

KURNIANTI, LELIM Y. HAERUDDINA. ARIF R. (2020). Analisis Beban dan Status Pencemaran BOD dan COD di Kali Asin. Semarang. Journal of fisheries and marine Research 4(3), 379-388.

MAHMUDI M., ALLIYIL A., DIFIA H. F., EVELLIN D. L., NANIK R. B., SULASTRI A., DAN MUHAMMAD M. (2021). Performance of Avicennia Alba and Rhizophora Mucronata as Lead Bioaccumulator in Bee Jay Resort, Indonesia. Journal of Ecological Engineering 22(2), 169-177.

MASLUKAH, L., E. INDRAYANTI & A. RIFAI. (2014). Sebaran material organik dan zat hara oleh arus pasang surut di Muara Sungai Demaan, Jepara. Jurnal Ilmu Kelautan 19(4), 189-194.

MENTARI REFINDA J., NIRWANI S., BAMBANG Y. (2022). Potensi Fitoremediasi Mangrove Rhizophora Mucronata Terhadap Logam Berat Tembaga (Cu) di Kawasan Mangrove Park, Pekalongan. Journal of Marine Research Volume 11(2), 183-188.

PESULIMA YOSIAS M., PIETER J. K., DAN ADELINA S. (2018). Analisis Bahan Pencemar Dominan di Muara Way Tomu dan Muara Way Lela Wilayah Pesisir Kota Ambon. Jurnal Budidaya Pertanian 14(2), 55-65.

PUTRO R. K. H., ATIEK M., DAN NIEKE K. (2013). Studi Efisiensi Sistem Prasedimentasi dan Free Water Surface Wetland dalam Menurunkan Kadar Nitrat, Fosfat, Kekeruhan, Zat Organik, dan Total Coli. Jurnal Teknik POMITS 2(3), 202-206.

PRATIWI, F. K. W. N., LILIK M., DAN DENNY N. S. (2022). Kualitas Air Dan Sedimen di Pusat Informasi Mangrove (PIM), Pekalongan. Indonesia Journal of Oceanography (IJOCE) 4(3), 33-43.

RAIS AROEF H., RUPAWAN DAN HERLAN. (2015). Pengaruh Curah Hujan Terhadap Kondisi Perairan dan Hasil Tangkapan Ikan di Estuari Sungai Barito. Jurnal Penelitian Perikanan Indonesia 21(3), 131-138.

SAIYOOD S., D. INTHORN, A. S. VANGNAI. DAN P. THIRAVETYAN. (2013). International Journal of Phytoremediation 15, 427-438.

SYAMSU, I. F., AHMAD ZAKY N., CLUADIA TYAS N. & SALMANA W. (2018). Kajian Perubahan Tutupan Lahan di Ekosistem Mangrove Pantai Timur Surabaya. Media Konservasi 23(2), 122-131.

TITAH HARMIN S. DAN HERMAN PRATIKNO. (2020). Chromium Accumulation by Avicennia Alba Growing at Ecotourism Mangrove Forest in Surabaya, Indonesia. Journal of Ecological Engineering 21(2), 222-227.

WARMAN INDRA. (2015). Uji Kualitas Air Muara Sungai Lais Untuk Perikanan Di Bengkulu Utara. Jurnal Agroqua 13(2).

WIBOWO MARDI DAN RENO A. R. (2020). Kajian Kualitas Perairan Laut Sekitar Muara Sungai Jelitik Kecamatan Sungailiat- Kabupaten Bangka. Jurnal Presipitasi 17(1), 29-37.

WULANDARI MARITA, MUHAMMAD M. H., DAN RAHMANIA. (2020). Penentuan Kondisi Kualitas Air Muara Sungai Bomber, Balikpapan, Kalimantan Timur dengan Metode Indeks Pencemaran (Pollution Index). SPECTA Jurnal of Technology 4(2).




DOI: http://dx.doi.org/10.21776/ub.jeest.2022.009.02.5

Refbacks

  • There are currently no refbacks.


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