Keanekaragaman Echinodermata dan Hubungannya dengan Komposisi Lamun pada Zona Intertidal Pantai Kiama, Sulawesi Utara

Julianti Malensang; Revolson A. Mege; Nonny Manampiring

doi:10.62951/switch.v3i5.686

Authors

Julianti Malensang Universitas Negeri Manado
Revolson A. Mege Universitas Negeri Manado
Nonny Manampiring Universitas Negeri Manado

DOI:

https://doi.org/10.62951/switch.v3i5.686

Keywords:

biodiversity, Echinoderms, ecological associations, Kiama Beach, seagrass beds

Abstract

Seagrass beds are coastal ecosystems that have important ecological functions as a provider of habitat, food sources, protection, and reproductive areas for various marine life including Echinoderms. This study aims to analyze the diversity of Echinoderms and their relationship with seagrass distribution in Kiama Beach, Melonguane District, Talaud Islands Regency. The research was conducted in the intertidal zone at three stations using the exploration method with purposive sampling technique. Each station is divided into three plot installation zones measuring 4 × 4 meters, with observations made at low tide. Environmental parameters (temperature and pH), type and number of Echinoderm individuals, and seagrass species were recorded and analyzed using the Shannon-Wiener diversity index and product moment correlations. The results showed that the Echinoderma community consists of two classes and five species: Archaster typicus, Linckia laevigata, Culcita novagueniae, Holothuroidea scabra, and Holothuroidea forskali, with the Asteroidea class dominating (75%). The diversity index (H') value was relatively low at all stations with a range of 0.6261–0.6631. Seagrass beds consist of five species, namely Halophila ovalis, Cymodocea rotundata, Thalassia hemprichii, Halodule uninervis, and Syringodium isoetifolium, with the highest abundance found in Halophila ovalis. Correlation results showed a strong to very strong relationship between the abundance of Echinoderms and certain seagrass types (r = 0.77–0.99) as well as a strong correlation at the overall level of the station (r = 0.74). This study confirms that the presence and abundance of Echinoderms is greatly influenced by the density and composition of seagrass species. These findings provide important baseline data for the management and conservation of seagrass beds as a support for the sustainability of coastal biodiversity.

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References

Bilmona Syakirin, F., dkk. (2023). Hubungan antara lamun dan echinodermata di perairan Desa Mangon. [Artikel penelitian].

Campbell, N. A., Reece, J. B., & Mitchell, L. G. (2012). Biology (9th ed.). Pearson Benjamin Cummings.

Den Hartog, C. (dalam Fauziyah). (2004). Kajian jenis substrat pada pertumbuhan Thalassia hemprichii. [Skripsi/Artikel].

Fachrul, M. F. (2012). Metode Sampling Bioekologi. Bumi Aksara.

Fahruddin, M., Abdurachman, M. H., Suryadin, A., & Murtawan, H. (2022). Karakteristik vegetasi lamun di perairan Ketapang Lombok Barat. Jurnal Kelautan dan Perikanan, 12(2), 55-63. https://doi.org/10.31957/acr.v5i2.2506

Ferencia Esanada Rattu, F., dkk. (2024). Identifikasi holothuroidea berdasarkan morfologi dan DNA barcoding di perairan Pulau Kabaruan. Jurnal Bioteknologi dan Genetika, 6(1), 1-10.

Koeshendrajana, S., Sari, D., & Rachman, R. (2019). Analisis ekosistem pesisir dan dampak aktivitas manusia terhadap biodiversitas. Pusat Riset Sosial Ekonomi Kelautan dan Perikanan, KKP.

Kordi, K. (2011). Ekosistem Lamun dan Manfaatnya. PT Rineka Cipta.

Manampiring, N., Mege, R. A., Setyawati, I., Ogi, N. I. L. M., & Mokosuli, Y. S. (2024). Sea cucumber from Talaud Islands: Morphological characteristics and DNA barcoding. International Journal of Agriculture & Biology, 33(4). https://doi.org/10.17957/IJAB/15.2297

Pangulimang, J., Mege, R. A., Manampiring, N., & Ogi, N. L. I. M. (2023). Morphological identification of sea cucumber and proximate analysis of the substrate of muddy sea cucumber on Molosing Island and Biau Beach, Bolaang Mongondow Regency. Indonesian Biodiversity Journal, 4(3), 12-20. https://doi.org/10.53682/ibj.v4i3.7618

Pangulimang, J., Roring, V. I. Y., Ogi, N. L. I. M., & Manampiring, N. (2023). Echinoderm community structure in Tamba Beach, North Minahasa Regency, North Sulawesi Province. Indonesian Biodiversity Journal, 4(2), 21-29. https://doi.org/10.53682/ibj.v4i2.6391

Pratiknjo, P. (2018). Geografi wilayah Kabupaten Kepulauan Talaud. Pemerintah Kabupaten Talaud.

Rattu, F. E., Mege, R., Manampiring, N., Roring, V. I. Y., Gedoan, S., & Mokosuli, Y. (2024). Identifikasi teripang laut (Holothuroidea) dari perairan laut Pulau Kabaruan berdasarkan identifikasi morfologi dan DNA barcoding. Bioscientist: Jurnal Ilmiah Biologi, 12(1), 277-292. https://doi.org/10.33394/bioscientist.v12i1.9649

Sitompul, Y. (2020). Peran invertebrata bentik sebagai bioindikator kualitas perairan. Jurnal Ilmu Lingkungan Perairan, 8(1), 41-49.

Tangke, U. (2010). Ekologi lamun sebagai ekosistem penting di wilayah pesisir. (Dikutip dalam Fahruddin et al., 2022).

Zurba, N. (2018). Struktur komunitas lamun dan hubungan dengan organisme asosiasi di perairan pesisir. Jurnal Oseanografi Tropis, 10(3), 201-211.