PENGUKURAN PANJANG TUBUH CACING NIPAH PENDEK Namalycastis abiuma (POLYCHAETA: NEREDIDAE) DARI PERAIRAN MANGROVE SUNGAI KAPUAS KALIMANTAN BARAT

Junardi Junardi

Abstract


Abstrak

Cacing Nipah Pendek Namalycastis abiuma memiliki tubuh yang elastis dan mudah putus sehingga diperlukan pendekatan morfometri tubuh lain untuk menentukan panjang tubuh sesungguhnya. Tujuan penelitian ini untuk menentukan panjang tubuh total cacing nipah pendek dengan menggunakan bobot tubuh, jumlah total segmen berseta, panjang tiga segmen anterior pertama (L3) dan lebar segmen berseta atau setiger ke-10 (S-10). Spesimen yang digunakan dipilih hanya individu yang lengkap dan utuh. Pengukuran dilakukan dibawah mikroskop dengan lensa okular yang dilengkapi dengan mikrometer. Data dianalisis dengan analisis korelasi. Cacing yang digunakan sebanyak 258 individu yang terdiri atas 190 immature, 54 submature dan 14 mature dengan ukuran panjang tubuh rata-rata berturut-turut 108,62±34,80 mm, 172,27±42,78 mm dan 123,14±57,40 mm. Cacing betina ditemukan memiliki ukuran tubuh lebih besar dari jantan. Panjang tubuh N. abiuma dapat diduga dengan bobot tubuh, panjang L3 dan lebar S-10 dengan nilai koefisien korelasi (r) berturut-turut 0,82, 0,73 dan 0,78. Pendekatan morfometri dapat digunakan untuk menentukan ukuran tubuh N. abiuma.

Abstract

The short nypa palm worm Namalycastis abiuma has an elastic and fragile body. Therefore, an alternative approach of morphometrical techniques is needed to determine the total body length. This research aimed to estimate the total body length of the short nypa palm worm based on body weight, the total number of segments, the length of the first three anterior segment (L3) and the tenth setiger width (S10). Body measurement was done using stereomicroscope fitted with the micrometer. Correlation analysis was done to describe the relationship between the length of L3 and the width of S10. A total of 258 complete and whole specimens consisted of 190 immature, 54 submature, and 14 mature individuals. The average body length of immature individuals was 108.62±34.80 mm, 172.27±42.78 mm for sub mature individuals, and 123.14±57.40 mm for mature individuals. Based on sexual dimorphism, the female body size is larger than male. The body length of N. abiuma can be estimated by body weight, the length of L3, and the  width of S10, with  correlation coefficient (r) of 0.82, 0.73 and 0.78, respectively. Morphometry approach can be used to determine the body size of N. abiuma.

 


Keywords


Morphometrics; Namalycastis; Nereididae; Polychaeta; Morphometrics

Full Text:

PDF

References


Cassai, C., & Prevedelli, D. (1998). Reproductive effort, fecundity and energy allocation in two species of the genus Perinereis (Polychaeta: Nereididae). Invertebrates Reproduction and Development, 34(2-3), 125-131.

Dales, R. (1950). The reproduction and larval development of Nereis diversicolor O.F Muller. Journal of Marine Biological Association of the United Kingdom, 29(2), 321-360.

Dales, R., & Kennedy, G. (1954). On the diverse colours of Nereis diversicolor. Journal of Marine Biological Association of the United Kingdom, 33(3), 699-708.

Durou, C., Mouneyrac, C., & Amiard-Triquet, C. (2008). Environment quality assessment in estuarine ecosystems: use of biometric measurements and fecundity of ragworm Nereis diversicolor (Polychaeta, Nereidiae). Water Research, 42(8-9), 2157-2165.

Fu, S. J., Cai, L., Liang, J., Zhou, X., Lin, H., Huang, K., & Xu, H. (2009). The spatial-temporal distribution of Namalycastis abiuma in the Futian mangrove wetland of Shenzhen Bay as well as its relationship to climate response. Acta Ecologica Sinica, 29(9), 4781-4789.

Giangrande, A. (1997). Polychaete reproductive pattern, life cycle and life histories: an overview. Oceanography and Marine Biology: An Annual Review, 35, 323-386.

Glasby, C. J. (1999). The Namanereidinae (Polychaeta: Nereididae) part I taxonomy and phylogeny. Records of the Australian Museum, Supplement 25(25), 1-129.

Glasby, C. J., & Timm, T. (2008). Global diversity of polychaetes (Polychaeta; Annelida). Hydrobiologia, 595(1), 107-115.

Ieno, E., Martin, J., & Bastida, R. (2000). Estimation of size classes in Laeonereis acuta based (Polychaeta: Nereididae) on length of jaws and body width useable in trophic studies. Bulletin of Marine Science, 67(1), 39-43.

Junardi., Setyawati, T. R., & Yuwono, E. (2010). Gametogenesis cacing nipah Namalycastis rhodochorde. Jurnal Ilmu Dasar, 11(1), 39-44.

Junardi. (2014a). Karakter reproduksi dua spesies cacing nipah semelparitas simpatrik Namalycastis rhodochorde dan Namalycastis abiuma (Polychaeta: Nereididae) di Kalimantan Barat. Bandung: Institut Teknologi Bandung.

Junardi., Anggraeni, T., Ridwan, A., Yuwono, E., & Setyawati, T. R. (2014b). Early ontogenesis of small nypa palm worm Namalycastis abiuma (Polychaeta: Nereidadae). In R. E. Prabowo, A. R. Maharning, E. R. Ardli, H. Pramono, G. E. Wijayanti, M. H. Sastranegara, and Y. Sistina (Eds.). Faculty of Biology Jenderal Soedirman University. Purwokerto.

Kaitala, H. (1999). Evolution of resource allocation between growth and reproduction in animals with indeterminate growth. Journal of Evolutionary Biology, 12(3), 423-429.

Lin, G. M., Shenb, K. N., & Hsiao, C. D. (2016). Next generation sequencing yields the complete mitogenome of nereid worm, Namalycastis. Mitochondrial DNA part B: Resources, 1(1), 103-104.

Magesh, M., Kvist, S., & Glasby, C. J. (2014). Incipient speciation within the Namalycastis abiuma (Annelida: Nereididae) species group from Southern India revealed by combined morphological and molecular data. Memoirs of Museum Victoria, 71, 169-176.

Meador, J., & Rice, C. A. (2001). Impaired growth in the polychaete Armandia brevis exposed to tributyltin in sediment. Marine Environmental Research, 51(2), 113-129.

Mouneyrac, C., Dorou, C., Gillet, P., Hummel, H., & Amiard-Triquet, C. (2009). Linking energy metabolism, reproduction, abundance, and structure of Nereis diversicolor populations. In A. T. C, P. Rainbow, & C. R. Amiard-Triquet (Eds.), Environmental Assessment of Estuarine Ecosystem (pp. 159-181). Boca Raton, United States: CRC Press.

Mouneyrac, C., Perrein-Ettajani, H., & Amiard-Triquet, C. (2010). Influence of anthropogenic stress on fitness and behaviour of a key-species. Environmental Pollution, 158(1), 121-128.

Omena, E., & Amaral, A. (2001). Morphometric study of the Nereidid Laeonereis acuta (Annelida: Polychaeta). Journal of Marine Biological Association of United Kingdom, 81(3), 423-426.

Rasmussen, E. (1994). Namalycastis abiuma (Müller in Grube) 1871, an aberrant Nereidid Polychaete of a Georgia salt marsh area and its faunal associations. Gulf Research Reports, 9(1), 17-28.




DOI: https://doi.org/10.15408/kauniyah.v11i2.7234 Abstract - 0 PDF - 0

Refbacks

  • There are currently no refbacks.


This work is licensed under a CC-BY- SA.

Indexed By:

/public/site/images/rachma/logo_moraref_75 /public/site/images/rachma/logo_google_scholar_75_01 /public/site/images/rachma/logo_isjd_120 /public/site/images/rachma/logo_garuda_75 /public/site/images/rachma/logo_crossref_120/public/site/images/rachma/logo_base_2_120 /public/site/images/rachma/neliti-blue_75   /public/site/images/rachma/dimensions-logo_120