KONDISI EKSISTING FAUNA MEGABENTHOS DI PERAIRAN LABUHAN PANDAN LOMBOK TIMUR PASCA GEMPA BUMI LOMBOK 7.0 SKALA RICHTER

Noar Muda Satyawan; Novita Tri Atriningrum

doi:10.29303/jbt.v19i2.1303

KONDISI EKSISTING FAUNA MEGABENTHOS DI PERAIRAN LABUHAN PANDAN LOMBOK TIMUR PASCA GEMPA BUMI LOMBOK 7.0 SKALA RICHTER

Authors

Noar Muda Satyawan , Novita Tri Atriningrum

DOI:

10.29303/jbt.v19i2.1303

Published:

2019-09-28

Issue:

Vol. 19 No. 2 (2019): Juli - Desember

Keywords:

Existing conditions, megabenthos, earthquake, Labuhan Pandan, Eastern Lombok

Articles

Downloads

PDF

Additional Files

KONDISI EKSISTING FAUNA MEGABENTHOS DI PERAIRAN LABUHAN PANDAN LOMBOK TIMUR PASCA GEMPA BUMI LOMBOK 7.0 SKALA RICHTER

How to Cite

Satyawan, N. M., & Atriningrum, N. T. (2019). KONDISI EKSISTING FAUNA MEGABENTHOS DI PERAIRAN LABUHAN PANDAN LOMBOK TIMUR PASCA GEMPA BUMI LOMBOK 7.0 SKALA RICHTER. Jurnal Biologi Tropis, 19(2), 172–179. https://doi.org/10.29303/jbt.v19i2.1303

Download Citation

Downloads

Download data is not yet available.

Metrics

Metrics Loading ...

Abstract

Abstrak : Gangguan eksternal pada ekosistem terumbu karang dapat terjadi secara alami ataupun karena aktifitas manusia yang menimbulkan perubahan fisik maupun ekologis. Perubahan ekologis dapat terlihat dari perubahan komposisi biota yang berasosiasi di dalamnya. Salah satu kelompok biota yang berasosiasi dengan terumbu karang adalah megabenthos. Tujuan dari penelitian ini adalah untk mengetahui kondisi eksisting fauna megabenthos pada ekosistem terumbu karang di perairan Labuhan Pandan Lombok Timur. Pengamatan dilakukan pada 5 stasiun yaitu Gili Bidara (BDR_01), Gili Kondo (KND_01), Gili Petagan 1 (PTG_01), Gili Petagan 2 (PTG_02), dan Gili Petagan 3 (PTG_03). Pengambilan data megabenthos dilakukan dengan metode Benthos Belt Transect (BBT). Hasil penelitian menunjukkan bahwa ditemukan 15 jenis megabenthos yang termasuk dalam 5 Phylum (Mollusca, Echinodermata, Chordata, Annelida, dan Platyhelminthes). Jumlah jenis tertinggi ditemukan pada phylum Echinodermata (10 jenis), kemudian diikuti oleh Mollusca (2 jenis), Chordata (1 jenis), Annelida (1 jenis), dan Platyhelminthes (1 jenis). Kepadatan megabenthos tertinggi ditemukan pada stasiun BDR_01 (10.571 ind/Ha), kemudian diikuti oleh stasiun KND_01 (10.214 ind/Ha), PTG_02 (9.857 ind/Ha), PTG_03 (8.429 ind/Ha) dan PTG_01 (1.714 ind/Ha). Keanekaragaman jenis tertingi ditemukan pada stasiun PTG_01 (HÃ¢â¬â¢=1,14), kemudian diikuti oleh BDR_01 (HÃ¢â¬â¢=0,76), KND_01 (HÃ¢â¬â¢=0,69), PTG_03 (HÃ¢â¬â¢=0,17) dan PTG_02 (HÃ¢â¬â¢=0,09). Hasil perhitungan indeks dominansi menunjukkan bahwa Didemnum molle (phylum Chordata)ÃÂ ditemukan dominan pada seluruh stasiun pengamatan. Ditemukan juga jenis megabenthos pemangsa hewan karang yaitu Acanthaster planci pada stasiun PTG_03 serta Drupella sp. pada stasiun BDR_01, KND_01 dan PTG_02. Beberapa jenis megabenthos yang ditemukan dapat dijadikan bioindikator dalam pemantauan kesehatan ekosistem terumbu karang di Perairan Labuhan Pandan, Lombok Timur.

Kata Kunci: Kondisi eksisting, Megabenthos, Gempa Bumi, Labuhan Pandan, Lombok Timur

Abstract: External disturbance to the coral reef ecosystem occured by naturally or due to human activities that cause physical and ecological changes. Ecological changes could be seen from changes in the composition of the associated biota. One of the biota groups that associated with coral reefs were megabenthos. The purpose of this study were to determine the condition of the megabenthos fauna on coral reef ecosystems in the Labuhan Pandan waters, Eastern Lombok. Observations were made at 5 stations namely Gili Bidara (BDR_01), Gili Kondo (KND_01), Gili Petagan 1 (PTG_01), Gili Petagan 2 (PTG_02), and Gili Petagan 3 (PTG_03). Data of Megabenthos were collected by Benthos Belt Transect (BBT) method. The results showed that found 15 species of megabenthos included in 5 phylum (Mollusca, Echinoderm, Chordata, Annelida, and Platyhelminthes). The highest number of species were found in Echinoderms phylum (10 species), followed by Mollusca (2 species), Chordata (1 species), Annelida (1 species), and Platyhelminthes (1 species). The highest megabenthos density were found at BDR_01 station (10,571 ind / Ha), then followed by stations KND_01 (10,214 ind / Ha), PTG_02 (9,857 ind / Ha), PTG_03 (8,429 ind / Ha) and PTG_01 (1,714 ind / Ha). The highest species diversity were found at stations PTG_01 (H '= 1.14), then followed by BDR_01 (H' = 0.76), KND_01 (H '= 0.69), PTG_03 (H' = 0.17) and PTG_02 (H '= 0.09). The calculation result of dominance index shows that Didemnum molle (phylum Chordata) were found dominant in all observation stations. Also found species of coral predator Acanthaster planci at PTG_03 station and Drupella sp. at stations BDR_01, KND_01 and PTG_02. Several species of megabenthos can be used as bioindicators to monitoring of coral reef health in Labuhan Pandan Waters, East Lombok.

Keywords: Existing conditions, megabenthos, earthquake, Labuhan Pandan, Eastern LombokÃÂ

ÃÂ

References

Abrar, M & A.E.W Manuputty. (2008). Inventarisasi dan Sebaran Biota Ascidian Di Terumbu Karang Perairan Berau, Kalimantan Timur. Oseanologi dan Limnologi di Indonesia, 34: 47-66.

Bachtiar I, Karnan, Santoso D, Japa L, Satyawan N.M., Atmanegara F.K. & Iien H. (2018). Monitoring Kesehatan Terumbu Karang dan Ekosistem Terkait di Sekotong, Lombok Barat. COREMAP-CTI. Jakarta: Lembaga Ilmu Pengetahuan Indonesia. Pp. 63

Dean HK. (2008). The use of polychaetes (Annelida) as indicator species of marine pollution: a review. Int J Trop Biol 56 (4): 11-38.

Endean, R. (1987). Acanthaster planci investation. In: Salvat B. (ed). Human Impact on Coral Reefs: Facts and Recommendations. Antenne Museum EPHE, French Polynesia, Australia.

Erdmann, A.M. (2004). Buku 2 Lautan : Panduan Sejarah Ekologi Taman Nasional Komodo. The Nature Conservancy Indonesia Coastal and Marine Program

Gholizadeh M, Yahya A, Talib A. & Ahmad O. (2012). Effects of environmental factors on polychaete assemblage in Penang National Park, Malaysia. Word Academy of Sci Eng Technol J 6 (12): 752-755.

Hirose, E & Maruyama, T. (2004). What Are The Benefits In The Ascidian-Prochloron Symbiosis?. Endocytobiosis Cell Res.15: 51-62.

Kossuga, M.H., Lira, S.P., McHugh, S., Torres, Y.R., Lima, B.A., Goncalves, R., Veloso, K., Ferreira, A.G., Rocha, R.M. & Berlinck, R.G.S. (2009). Antibacterial Modified Diketopiperazines from two Ascidians of the Genus Didemnum. J. Braz. Chem. Soc., 20 (4): 704-711.

Kroncke I. & Reiss H. (2010). Influence of macrofauna long-term natural variability on benthic indices used in ecological quality assessment. Mar Pollut Bull 60 (1): 58-68.

Lalang, Sadarun, B. & Haya, L. O. M. Y. (2013). Kelimpahan Drupella dan Kondisi Terumbu Karang di Perairan Maluku Mandike Selat Tiworo Kabupaten Muna, Sulawesi Tenggara. Jurnal Mina Laut Indonesia, 1 (1) : 12 Ã¢â¬â 22.

Manoharan J, Varadharajan D, Thilagavathi B. & Priyadharsini S. (2011). Biodiversity and abundance of benthos along the South East Coast of India. Adv App Sci Res 2(6): 554-562.

McClintock, J.B & B.J. Baker. (2001). Marine and Chemical Ecology. CRC Press. Boca Raton.

Odum, E. P. (1971). Fundamentals of Ecology. W. B. Saundres Company. Philadelphia.

Sahidin A, Wardiatno, Y. (2016). Spatial distribution of Polychaete at Tangerang coastal water, Banten Province. J Fish Mar 6 (2): 83-94.

Satyawan, N.M., Tutupoho, S., Wardiatno. Y. & Tsuchiya, M. (2013). Feeding behaviour and bioerosion: the ecological role of the rock-boring urchin, Echinometra mathaei (de Blainville, 1825), in Okinawa reef flat. Aquatic Science & Management, 1 (1): 10 Ã¢â¬â 16.

Satyawan, N.M., Wardiatno, Y. & Kurnia, R. (2014). Keanekaragaman Spesies dan Zonasi Habitat Echinodermata di Perairan Pantai Semerang, Lombok Timur. Jurnal Biologi Tropis, 14 (2) : 83 Ã¢â¬â 92.

Sharma SD, Behera RR, Mohapatra U, Panda CR & Nayak L. (2018). Effect of estuarine effluents on benthic faunal communities in relation to tidal dynamics of Dhamra estuary. J Pharm Life Sci 4 (2): 127-134

Shokat P, Nabavi1 SMB, Savari1 A. & Kochanian P. (2010). Ecologicalquality of Bahrekan coast, by using biotic indices and benthic communities. Transit. Waters Bull 4 (1): 25-34

Shou L, Huang Y, Zeng J, Goa A, Liao Y & Chen Q. (2009). Seasonal changes of macrobenthos distribution and diversity in Zhoushan sea area. Aquatic ecosystem health and management. 12 (1): 110-115.

Suwignyo, S., Widigdo, B., Wardiyatno, Y. & Krisanti, M. (2005). Avertebrata Air Jilid 1. Penebar Swadaya. Jakarta

Tabatabaie T & Amiri F. (2011). Evaluation of the impact of industrial sewage pollution on marine benthic communities. Journal of Water Supply: Res TechnolÃ¢â¬âAQUA 60 (6): 364-374.

Torgensen, C. E. & Baxter C. V. (2006). Landscape Influences on Longitudinal Patterns of River Fishes: Spatially continous Analysis of Fish-Habitat Relationships. American Fisheries Society.

Yusron, E. (2010). Penelitian kajian diversitas biota laut di perairan Lombok dan sekitarnya, Nusa Tenggara Barat. Pusat Penelitian Oseanografi Ã¢â¬â LIPI. Jakarta.

Wardiatno, Y., Qonita, Y., Mursalin, Zulmi R, Effendi H, Krisanti M,Mashar A, Hariyadi S, Hakim AA, Sahidin A, Widigdo B & Nursiyamah S. (2017). Determining ecological status of two coastal waters in Western Java using macrozoobenthic community: A comparison between North Part and South Part. IOP Conf Ser: Earth Environ Sci 54 (1): 01207

License

Jurnal Biologi Tropis is licensed under a Creative Commons Attribution 4.0 International License.

The copyright of the received article shall be assigned to the author as the owner of the paper. The intended copyright includes the right to publish the article in various forms (including reprints). The journal maintains the publishing rights to the published articles.

Authors are permitted to disseminate published articles by sharing the link/DOI of the article at the journal. Authors are allowed to use their articles for any legal purposes deemed necessary without written permission from the journal with an acknowledgment of initial publication to this journal.

KONDISI EKSISTING FAUNA MEGABENTHOS DI PERAIRAN LABUHAN PANDAN LOMBOK TIMUR PASCA GEMPA BUMI LOMBOK 7.0 SKALA RICHTER

Authors

DOI:

Published:

Issue:

Keywords:

Articles

Downloads

Additional Files

How to Cite

Downloads

Metrics

Abstract

References

License

Most read articles by the same author(s)

Similar Articles

Menu

Manuscript Template

visitor

Keywords

Mitra Kerja sama

Open Access Journals

Contact Us

Information

Share & Follow