Kualitas air dan beban nitrogen di Waduk Jatigede

Asri Melani; Aliati Iswantari; Dwi Yuni Wulandari; Niken Tunjung Murti Pratiwi

doi:10.29244/HAJ.3.1.21

Asri Melani Program Studi Manajemen Sumberdaya Perairan, Fakultas Perikanan dan Ilmu Kelautan, IPB University, Bogor, 16680, Indonesia
Aliati Iswantari Departemen Manajemen Sumberdaya Perairan, Fakultas Perikanan dan Ilmu Kelautan, IPB University, Bogor, 16680, Indonesia
Dwi Yuni Wulandari Department of Aquatic Resources Management Faculty of Fisheries and Marine Science, IPB University, Indonesia
Niken Tunjung Murti Pratiwi Department of Aquatic Resources Management Faculty of Fisheries and Marine Science, IPB University, Indonesia

DOI: https://doi.org/10.29244/HAJ.3.1.21

Keywords: nitrogen load, nitrogen load capacity, Jatigede Reservoir

Abstract

Jatigede Reservoir adjacent to residential areas and agricultural activities has the potential to receive waste discharge, which is thought to also contain nitrogen pollutants. Continuous increase in nitrogen content can have adverse effects, such as decreased water quality and eutrophication. The analysis of nitrogen load carrying capacity in Jatigede Reservoir, West Java was carried out based on primary data collected. Water sampling and water data collection of Jatigede Reservoir were carried out on six observation stations and two main rivers inlet of Jatigede Reservoir. Furthermore, nitrogen load determination is carried out from rivers (inlets) and in reservoirs, nitrogen sedimentation, and nitrogen load carrying capacity. The nitrogen load in Jatigede Reservoir of 24,374 tons has exceeded the maximum limit according to water quality standards, amounting to 1,739 tons. Meanwhile, the maximum nitrogen load capacity in accordance with water quality standards in Jatigede Reservoir is 595 tons. year-1. It can be concluded that the Jatigede Reservoir is no longer able to accommodate the incoming nitrogen load.

Downloads

Download data is not yet available.

References

[APHA]. 2017. Standard Methods for The Examination of Water and Waste Water. Ed ke-23. Ohio (US): American Water Works Association (AWWA) and Water Pollution Control Federation (WPCF).

Aisyah S, Nomosatryo S. 2016. Distribusi spasial dan temporal nutrien di Danau Tempe, Sulawesi Selatan. Oseanologi dan Limnol. 1(2):31–45. http://jurnal-oldi.or.id/index.php/oldi/article/view/19/30.

Anas P, Jubaedah I, Sudino D. 2017. Kualitas air dan beban limbah karamba jaring apung di Waduk Jatiluhur Jawa Barat. J Penyul Perikan dan Kelaut. 11(1):35–47. doi:10.33378/jppik.v11i1.84.

Andani A, Herawati T, Zahidah, Hamdani H. 2017. Identifikasi dan inventarisasi ikan yang dapat beradaptasi di Waduk Jatigede pada tahap inundasi awal. J Perikan dan Kelaut. 8(2):28–35.

Ardhitama A, Sholihah R. 2014. Kajian penentuan awal musim di daerah non ZOM 14 Riau dengan menggunakan data curah hujan dan hari hujan. J Sains Teknol Modif Cuaca. 15(2):65–73. doi:10.29122/jstmc.v15i2.2672.

Arfah M, Hidayat R. 2020. Pengaruh vegetasi dalam mereduksi laju limpasan permukaan pada tebing (Penelitian laboratorium) [skripsi]. Makassar: Universitas Muhammadiyah Makassar.

Asriyana, Yuliana. 2012. Produktivitas Perairan. Jakarta: Bumi Aksara.

Aurelia R, Hasan Z, Gumilar I. 2021. Composition and distribution of phytoplankton in Jatigede reservoir. Int J Fish Aquat Stud. 9(5):39–44.

[BBWS] Balai Besar Wilayah Sungai Cimanuk-Cisanggarung. Kajian Pemantauan Keramba Jaring Apung. Sumedang. 2021.

[BBWS] Balai Besar Wilayah Sungai Cimanuk-Cisanggarung. Kajian Pemantauan Operasi dan Pemeliharaan Waduk Jatigede Tahun ke-IV. Sumedang. 2020.

[BMKG] Badan Meteorologi Klimatologi dan Geofisika. 2020. Data Online Pus Data base-BMKG, Stasiun Kertajati, Kabupaten Majalengka.

Bahri S. 2016. Identifikasi sumber pencemar Nitrogen (N) dan Fosfor (P) pada pertumbuhan melimpah tumbuhan air di Danau Tempe, Sulawesi Selatan. J Sumber Daya Air. 12(2):159–174. doi:10.32679/jsda.v12i2.63.

Chester R. 1990. Marine Geochemistry. London (UK): Unwin Hyman Ltd.

Davis ML, Cornwell DA. 1991. Introduction to Environmental Engineering. Ed ke-2nd ed. New York (NY): McGraw-Hill Inc.

Fatmawati R, Masrevaniah A, Solichin M. 2012. Kajian identifikasi daya tampung beban pencemaran Kali Ngrowo dengan menggunakan paket program QUAL2Kw. J Tek Pengair. 3(2):122–131.

Gin KY, Ramaswamy U, Gopalakrishnan AP. 2011. Comparison of nutrient limitation in freshwater and sstuarine reservoirs in tropical urban Singapore. J Environ Eng. 137:913–919. doi:10.1061/(ASCE)EE.1943-7870.0000397.

Goldman CR, Horne AJ. 1983. Limnology. New York (NY): McGraw Hill Book Company.

Gordon N, Mahon T, Finlason B. 1992. Stream Hidrology and Introduction for Ecologists. England.

Green L, Addy K, Sanbe N. 1996. Measuring water clarity. Nat Resour Facts. 96(1):1–4.

Harrison JA, Maranger RJ, Alexander RB, Giblin AE, Jacinthe PA, Mayorga E, Seitzinger SP, Sobota DJ, Wollheim WM. 2009. The regional and global significance of nitrogen removal in lakes and reservoirs. Biogeochemistry. 93:143–157. doi:10.1007/s10533-008-9272-x.

Heriyanto H, Hasan Z, Yustiati A, Nurruhwati I. 2018. Dampak budidaya keramba Jaring Apung terhadap produktivitas primer di perairan Waduk Darma Kabupaten Kuningan Jawa Barat. J Perikan dan Kelaut. 9(2):27–33.

Horne AJ, Goldman CR. 1994. Limnology. 2nd ed. New York (NY): McGraw-Hill Inc.

Inayati W, Farid A. 2020. Analisis beban masuk nutrien terhadap kelimpahan klorofil-a saat pagi hari di Sungai Bancaran Kabupaten Bangkalan. J Ilm Kelaut dan Perikan. 1(3):406–416.

Irianto EW, Triweko R, Yudianto D. 2012. Estimasi dinamik jangka panjang terhadap kualitas air untuk pengendalian eutrofikasi pada Waduk Jatiluhur. J Tek Hidraul. 3(1):1–16.

Istijanto. 2006. Riset Sumber Daya Manusia Cara Praktis Mendeteksi Dimensidimensi Karyawan. Jakarta: Gramedia Pustaka Utama.

Jørgensen S, Vollenweider R. 1988. Principles of Lake Management, Guidelines of Lake Management Vol. 1. International Lake Environment Comittee (ILEC), United Nations Environment Programme (UNEP).

Mara D, Cairncross S. 1994. Pemanfaatan Air Limbah dan Ekskreta: Patokan untuk Perlindungan Kesehatan Masyarakat. Bandung: Universitas Udayana dan ITB.

Maslukah L, Wulandari SY, Budi Prasetyawan I. 2017. Konsentrasi klorofil-a dan keterkaitannya dengan nutrien N, P di perairan Jepara : studi perbandingan perairan Muara Sungai Wiso dan Serang. J Kelaut Trop. 20(2):72–77. doi:10.14710/jkt.v20i2.1697.

Mattjik AA, Sumertajaya IM. 2013. Perancangan Percobaan dengan Aplikasi SAS dan Minitab. Bogor: IPB Press.

McNeely RN, Nelmanis VP, Dwyer L. 1979. Water Quality Source Book, a Guide to Water Quality Parameter. Canada: Ottawa: Environmental Canada, Inland Waters Directorate, Water Quality Branch.

Metcalf, Eddy. 2014. Wastewater Engineering : Treatment and Resource Recovery. 5th ed. New York (NY): McGraw-Hill Eductaion.

Novotny V, Olem H. 1994. Water Quality, Prevention, Identification, and Management of Diffuse Pollution. New York (NY): Van Nostrand Reinhold.

Nurhayati A, Herawati T, Lili W, Yustiati A, Matindas IN. 2020. Kajian nilai sosial ekonomi dan lingkungan sumberdaya perikanan tangkap di Waduk Jatigede Kabupaten Sumedang Provinsi Jawa Barat. J Penyul. 16(1):122–133. doi:10.25015/16202025262.

Nurmayanti. 2002. Kontribusi limbah domestik terhadap kualitas air Kaligarang Semarang [tesis]. Yogyakarta: Universitas Gajah Mada.

[Perda] Peraturan Daerah Kabupaten Sumedang Nomor 4 Tahun 2018 Tentang Rencana tata Ruang Wilayah Kabupaten Sumedang Tahun 2018-2038. 2018.

[Permen] Peraturan Menteri Negara Lingkungan Hidup Nomor 28 Tahun 2009 Tentang Daya Tampung Beban Pencemaran Air Danau Dan/Atau Waduk. 2009.

[PPRI] Peraturan Pemerintah Republik Indonesia Nomor 22 Tahun 2021 Tentang Penyelenggaraan Perlindungan dan Pengelolaan Lingkungan Hidup. 2021.

Pello FS, Adiwilaga EM, Damar NVHA. 2014. Pengaruh musim terhadap beban masukkan nutrien di Teluk Ambon dalam (effect of seasonal on nutrient load input the inner ambon bay). 14(1):63–73.

Pertiwi D, Nugraha WD, Sarminingsih A. 2017. Status trofik dan daya tampung beban pencemaran Waduk Jatibarang Semarang. J Tek Lingkung. 6(3):1–9.

Pradwipa DP, Jayadi R, Istiarto. 2019. Kajian pemanfaatan sumberdaya air waduk serbaguna Jatigede, Jawa Barat. Renov Rekayasa Dan Inov Tek Sipil. 4(2):10–21.

Pratiwi NTM, Hariyadi S, Soegesty NB, Wulandari DY. 2020. Penentuan status trofik melalui beberapa pendekatan (Studi kasus: Waduk Cirata). J Biol Indones. 16(1):89–98.

Price CS, Morris JA. 2013. Marine Cage Culture and The Environment: Twenty-First Century Science Informing a Sustainable Industry. Privers Insland: NOAA Technical Memorandum NOS NCCOS.

Samudra SR, Soeprobowati TR, Izzati M. 2013. Komposisi, kemelimpahan dan keanekaragaman fitoplankton Danau Rawa Pening Kabupaten Semarang. Bioma. 15(1):6–13. doi:10.14710/bioma.15.1.6-13.

Setyawan F, Fikri AA, Nur A. 2017. Telemetri flowmeter menggunakan RF modul 433MHZ BERBASIS ARDUINO berbasis arduino. J Electr Electron Eng. 1(1):8–14.

Smith V, Tilman G, Nekola J. 1999. Eutrophication: impacts of excess nutrient inputs on freshwater, marine, and terrestrial ecosystems. Environ Pollut. 100:179–196.

Soares MCS, Marinho MM, Huszar VLM, Branco CWC, Azevedo SMFO. 2008. The effects of water retention time and watershed features on the limnology of two tropical reservoirs in Brazil. Lakes Reserv Res Manag. 13:257–269. doi:10.1111/j.1440-1770.2008.00379.x.

Subarma UN, Hutabarat S, Studi P, Sumberdaya M, Perikanan J, Diponegoro U, Jatigede W. 2014. Evaluasi kualitas air sebelum dan sesudah memasuki Waduk Jatigede, Sumedang. Manag Aquat Resour J. 3(4):132–140. doi:10.14710/marj.v3i4.7047.

Susanto B, Sukadwilinda S. 2016. Analisis kelayakan finansial wisata air Waduk Jatigede Kabupaten Sumedang. J Ris Akunt dan Keuang. 4(1):867–872. doi:10.17509/jrak.v4i1.7707.

Suthers IM, Rissik D. 2008. Plankton: a Guide to Their Ecology anda Monitoring For Water Quality. Australia: CSIRO Publishing.

Szczykowska J, Siemieniuk A, Wiater J. 2015. Agricultural pollution and water quality in small retention reservoir in Korycin. J Ecol Eng. 16(1):141–146. doi:10.12911/22998993/599.

Vinnerås B. 2001. Faecal separation and urine diversion for nutrient management of household biodegradable waste and wastewater. Uppsala: Swedish University of Agricultural Sciences.

Walpole RE. 1995. Pengantar Statistika. Jakarta: Gramedia.

Warsa A. 2016. Model perencanaan pengelolaan dan optimalisasi waduk berbasis perikanan jaring apung dan perikanan alami (Studi kasus: Waduk Jatigede, Sumedang-Jawa Barat) [tesis]. Bogor: Institut Pertanian Bogor.

Warsa A, Soewardi K, Hariyadi S. 2016. Struktur komunitas ikan dan tingkat trofik di wilayah genangan Waduk Jatigede Prainundasi, Kabupaten Sumedang-Jawa Barat. BAWAL Widya Ris Perikan Tangkap. 8(1):29. doi:10.15578/bawal.8.1.2016.29-36.

Wetzel RG. 2001. Lymnology. 3th ed. Clifornia (USA): Academic Press.

Yang L, Lei K, Yan W, Li Y. 2013. Internal loads of nutrients in Lake Chaohu of China : implications for lake eutrophication. Int J Environ Res. 7(4):1021–1028.

Zhou T, Wu J, Peng S. 2012. Assessing the effects of landscape pattern on river water quality at multiple scales: A case study of the Dongjiang River watershed, China. Ecol Indic. 23:166–175. doi:10.1016/j.ecolind.2012.03.013.

Water quality and nitrogen load in Jatigede Reservoir

Abstract

Downloads

References