Identification of Environmental Factors Determining the Diversity and Abundance of Phytoplankton in Menjer Lake, Wonosobo, Indonesia

Piranti, Agatha Sih; Widyartini, Dwi Sunu; Retna USR, Diana; Noviana, Fariza

doi:10.12912/27197050/176314

Artykuł - szczegóły

Tytuł artykułu

Identification of Environmental Factors Determining the Diversity and Abundance of Phytoplankton in Menjer Lake, Wonosobo, Indonesia

Autorzy

Piranti Agatha Sih , Widyartini Dwi Sunu , Retna USR Diana , Noviana Fariza

Treść / Zawartość

Pełne teksty:

24_Piranti_Identification_EEET_2024_2.pdf

Pobierz

Identyfikatory

DOI

10.12912/27197050/176314

Warianty tytułu

Języki publikacji

Abstrakty

Phytoplankton are primary producers in aquatic ecosystems, their abundance is determined by environmental changes, so phytoplankton are often used as bioindicators of waters. The aim of this research was to determine the diversity and abundance of phytoplankton in Menjer Lake, to measure the environmental factors that determine the diversity and abundance of phytoplankton, and to determine the environmental factors that most influence the diversity and abundance of phytoplankton in Menjer Lake. This research uses a survey method in 5 areas (inlet, middle of the lake, aquaculture using floating net cage, tourism, and outlet). The parameters observed were the diversity and abundance of phytoplankton as well as the concentration of water quality parameters that determine the presence of phytoplankton (temperature, light penetration, pH, DO, TSS, TDS, PO₄ and NO₃). To determine the environmental factors that most influence the diversity and abundance of phytoplankton were analyzed using the principal component analyses method with Past 4.10 software. The community structure of phytoplankton in Menjer Lake was dominated by Bacillariophyta (83%). The factors determining the development of phytoplankton in Menjer Lake are influenced most by light penetration and PO₄ concentration. The input of PO₄ concentration from the water catchment area must be controlled to prevent phytoplankton blooming in Menjer Lake.

Słowa kluczowe

phytoplankton Menjer Lake water quality

Wydawca

Lubelski Oddział Polskiego Towarzystwo Inżynierii Ekologicznej
Lublin University of Technology
WNGB Wydawnictwo Naukowe

Czasopismo

Ecological Engineering & Environmental Technology

Rocznik

2024

Tom

Vol. 25, iss. 2

Strony

272--280

Opis fizyczny

Bibliogr. 34 poz., rys., tab.

Twórcy

autor

Piranti Agatha Sih

agatha.piranti@unsoed.ac.id

Jenderal Soedirman University Indonesia, Jl. Dr. Soeparno No. 63, Karangwangkal Purwokerto, Indonesia

https://orcid.org/0000-0001-9795-8765

autor

Widyartini Dwi Sunu

Jenderal Soedirman University Indonesia, Jl. Dr. Soeparno No. 63, Karangwangkal Purwokerto, Indonesia

https://orcid.org/0000-0003-4836-2118

autor

Retna USR Diana

Jenderal Soedirman University Indonesia, Jl. Dr. Soeparno No. 63, Karangwangkal Purwokerto, Indonesia

https://orcid.org/0000-0002-0052-2541

autor

Noviana Fariza

Jenderal Soedirman University Indonesia, Jl. Dr. Soeparno No. 63, Karangwangkal Purwokerto, Indonesia

https://orcid.org/0009-0007-1214-0501

Bibliografia

1. Amalia D.Y., Sudarmadji, 2016. Evaluasi Umur Layanan Danau Menjer yang Berfungsi sebagai PLTA Garung di Kabupaten Wonosobo Provinsi Jawa Tengah. Jurnal Bumi Indonesia, 5(2), 1-10.
2. Amrillah A.M, Kilawati Y., Rizqa V., 2023. Species composition and relative abundance of phytoplankton in Ranu Klakah, Lumajang, East Java. Journal of Fisheries and Marine Research, 7(3), 27-31.
3. Anas P., Jubaedah L., Sudino D., 2017. Kualitas Air dan Beban Limbah Karamba Jaring Apung di Waduk Jatiluhur Jawa Barat. Jurnal Penyuluhan Perikanan dan Kelautan, 11(1), 35-47.
4. APHA, 2012. Standard Methods for the Examination of Water and Wastewater. American Public Health Association (APHA), American Water Works Association (AWWA), Water Pollution Control Federation (WPCF). Washington DC.
5. Ariani A., Idrus A., Japa L., Santoso D., 2020. Struktur Komunitas Makroalga Sebagai Indikator Ekologi Ekosistem Perairan Pada Kawasan Konservasi Laut Daerah Di Gili Sulat Lombok Timur. J. Biol. Trop., 20(1), 132–138, DOI: 10.29303/jbt.v20i1.1690.
6. Bellinger E.G., Sigee D.C., 2011 Freshwater algae: identification and use as bioindicators. John Wiley & Sons, 284 p.
7. Chu Z., Jin X., Iwami N., Inamori I., 2007. The effect of temperature on growth characteristics and competitions of Microcystis aeruginosa and Oscillatoria mougeotii in a shallow, eutrophic lake simulator system, Hydrobiologia 581(1): 217-223.
8. Derot, Jamoneau A., Teichert N., Rosebery J., Morin S., Laplace-Treyture C., 2019. Response of phytoplankton traits to environmental variables in French lakes: New perspectives for bioindication. Ecol. Indic., 108(May), 105659, DOI: 10.1016/j.ecolind.2019.105659.
9. Guiry M.D., Guiry G.M., 2022 Algae base. Worldwide electronic publication. National University of Ireland, Galway. https://www.algaebase.org.
10. Harvey and Menden-Deuer S., 2012. Predatorinduced fleeing behaviors in phytoplankton: A new mechanism for harmful algal bloom formation? PLoS One, 7(9), DOI: 10.1371/journal.pone.0046438.
11. Irianto E.W., Triweko R.W., 2019. Eutrofikasi Waduk dan Danau: Permasalahan, Pemodelan, dan Upaya Pengendalian. Bandung: ITB Press.
12. Kostryukova A.M., Mashkova I.V., Krupnova T., Gegorov N.O., 2018. Phytoplankton biodiversity and its relationship with aquatic environmental factors in Lake Uvildy, South Urals, Russia. Biodiversitas. 19(4), 1422-1428. DOI:10.13057/biodiv/d190431.
13. Kumalasari D.A., Soeprobowati T.R., Putro S., 2015. Komposisi dan Kemelimpahan Fitoplankton di Telaga Menjer, Wonosobo.Jurnal Biologi, 4(3), 53-61.
14. Krebs C.J., 2014. Ecology: The Experimental Analysis of Distribution and Abundance Sixth Edition. New York: Harper Collins Publisher.
15. Magurran A.E., 2004 Ecological diversity and its measurement. Blackwell Publishing, Malden, MA, USA, 261.
16. Mukharomah E., Suheryanto, Elyza F., Muli R., 2018. Keterkaitan Komunitas Fitoplankton dengan Kualitas Air di Danau Sky Air Jakabaring Palembang. Jurnal Biosains, 4(2), 108-112.
17. Muthifah L., Nurhayati, Utomo K.P., 2018. Analisis Kualitas Air Danau Kandung Suli Kecamatan Jong-kong Kabupaten Kapuas Hulu. Jurnal Teknologi Lingkungan Lahan Basah, 6(1), 1-10.
18. Parmar T.K., Rawtani D., Agrawal Y.K., 2016. Bioindicators: The natural indicator of environmental pollution. Frontiers in Life Science., 9(2), 110–118. DOI: 10.1080/21553769.2016.1162753.
19. Peraturan Pemerintah Republik Indonesia, 2021. Peraturan Pemerintah Nomor 22 Tahun 2021 tentang Penyelenggaraan Perlindungan dan Pengelolaan Lingkungan Hidup.
20. Piranti A.S., Wibowo D.N., 2020. The use of phytoplankton communities for assessment of water quality in the Wadaslintang Reservoir in Indonesia. Journal of Water and Land Development. 46(VII–IX), 170–178. DOI: 10.24425/ jwld.2020.134210.
21. Piranti A.S., Sudarmadji S., Maryono, Hadisusanto A., 2012. Determination of nutrient criteria for assessing trophic status of Mrica Reservoir. J. Mns. Dan Lingkung., 19(2), 184–192.
22. Piranti D.N., Wibowo, 2020. The use of phytoplankton communities for assessment of water quality in the Wadaslintang Reservoir in Indonesia, J. Water L. Dev., 46, 170–178, DOI: 10.24425/jwld.2020.134210
23. Piranti A.S., Nur A.F., Widyartini D.W., Widyastuti A., 2023. Load allocation of nutrients causing eutrophication and their impact to lake: Case study of Menjer Lake, Wonosobo, Indonesia. International Journal of Science and Technology Research Archive, 4(1), 235-243.
24. Piranti A.S., Rahayu D.R., Waluyo G., 2018. Evaluasi Status Mutu Air Danau Rawapening. Jurnal Pengelolaan Sumberdaya Alam dan Lingkungan, 8(2), 151-160.
25. Piranti A.S., Rus Rahayu D., Waluyo G., 2018. Phosphorus loading from fish farming activities to wadaslintang reservoir waters. E3S Web Conf., 47, 1–11, DOI: 10.1051/e3sconf/20184704007.
26.Rahayu Y., Juwana I., Marganingrum D., 2018. Kajian Perhitungan Beban Pencemaran Air Sungai di Daerah Aliran Sungai (DAS) Cikapundung dari Sektor Domestik. Jurnal Rekayasa Hijau, 1(2), 61-71.
27. Singh U.B., Ahluwalia A.S., Sharma C., Jindal R., Thakur R.K., 2013. Phytoplanktonic indicators: A promising tool for monitoring water quality (earlywarning signals). Ecology, Environment and Conservation, 19(3), 793–800.
28. Smith S.L., Yamanaka Y., Pahlow M., Oschlies A., 2009. Optimal uptake kinetics: physiological acclimation explains the pattern of nitrate uptake by phytoplankton in the ocean. Mar. Ecol. Prog. Ser, 384, 1-12.
29. Soeprobowati, Saraswati T.R., Jumari J., Sari K., Gell P., 2022. Diatom index of Galela Lake, Halmahera, Indonesia in relation to human activities. Int. J. Environ. Sci. Technol., No. 0123456789, doi:10.1007/s13762-022-04463-7.
30. Nopiantari V., Arthana I.W., Astarini I.A., 2017. Dampak Kegiatan Pertanian Terhadap Tingkat Eutrofikasi Dan Jenis – Jenis Fitoplankton Di Danau Buyan Kabupaten Buleleng Provinsi Bali. Ecotrophic J. Ilmu Lingkung. Journal Environ. Sci., 11(1), 47, 2017, DOI: 10.24843/ejes.2017.v11.i01.p08.
31. Weather C., James P., Cook R., Penny A., 2011. Practical Field Ecology. A Project Guide. UK: Wiley-Balckwell Publishing.
32. Wisha U.J., Yusuf M., Maslukah I., 2016. Searan Muatan Padatan Tersuspensi dan Kelimpahan Fitoplankton di Perairan Muara Sungai Porong Kabupaten Sidoarjo. Jurnal Oseanografi, 3(3), 454-461.
33. Yanti E.V. 2017. Dinamika musiman kualitas air di daerah Sungai Kahayan Kalimantan Tengah [Dynamics seasonal of water quality at the watershed Kahayan River, Central Kali- mantan]. Ziraa’ah Majalah Ilmiah Pertanian, 42(2), 107–118. DOI: 10.31602/zmip.v42i2.774.
34. Ye Y. Luo, Wang Y., Lin M., Xiang P., Ashraf M.A., 2017. Relation between diversity of phytoplankton and environmental factors in waters around Nanri Island. Appl. Ecol. Environ. Res., 15(3), 241-252, 2017, DOI: 10.15666/aeer/1503_241252.

Uwagi

Opracowanie rekordu ze środków MNiSW, umowa nr SONP/SP/546092/2022 w ramach programu "Społeczna odpowiedzialność nauki" - moduł: Popularyzacja nauki i promocja sportu (2024).

Typ dokumentu

Bibliografia

Identyfikator YADDA

bwmeta1.element.baztech-d7d83154-c06d-4c79-b650-d4d064f9b7b2