Analysis of Carotenoid Pigment Types in the Carapace of the Male Crab Grapsus albolinetaus Latreille in Milbert 1812

Fatika Sari Mokoginta, Darus Saadah Johanis Paransa, Kurnati Kemer, James J. H. Paulus, Nickson J. Kawung, Henky Manoppo

Abstract


Carotenoid pigments have various colors such as yellow, orange, or red-orange. One of the carotenoid pigment sources is Crab G. albolineatus Latreille in Milbert 1812. Column chromatography separation technique was used to determine the metabolism of carotenoid pigments in the crab G. albolineatus latreille in Milbert 1812. This CC separation used hexane and acetone as the developer solution (70:30). The developer solution as known as the mobile phase is semipolar, while the stationary phase is silica powder G60. Therefore, it formed two metabolic pathways. The male G. albolineatus crab used in this study was on the D3 molting stage which had a concentration of 36.37 g/g dry residue and 4.72 g content. The types of pigments identified are: β – karoten, Zeaxanthin, lutein, β – kriptoxanthin dan Astaxanthin.

Keywords: Carotenoid Pigments; G. albolineatus; Column Chromatography; Molting

Abstrak

Pigmen karotenoid memiliki berbagai warna seperti kuning, oranye, atau merah oranye. Salah satu sumber pigmen karotenoid adalah pada karapas kepiting G. albolineatus Latreille in Milbert 1812. Untuk mengetahui metabolisme jenis pigmen karotenoid pada kepiting Grapsus albolineatus latreille in Milbert 1812 yaitu menggunakan pemisahan kromatografi Kolom. Pemisahan KK ini menggunakan larutan pengembang heksan dan aseton (70:30). Larutan pengembang merupakan fase gerak yang bersifat semipolar dan fase diamnya menggunakan bubuk silika G60. Terbentuk dua  jalur metabolisme. Kepiting G. albolineatus jantan yang digunakan pada penelitian berada di stadium molting D3 dengan konsentrasi sebesar 36,37 µg/g berat residu kering dan kandungan 4,72 µg. Jenis pigmen yang teridentifikasi yaitu : β – karoten, Zeaxanthin, lutein, β – kriptoxanthin dan Astaxanthin.

Kata kunci: Pigmen; Karotenoid; G. albolineatus; Kromatofrafi Kolom; Molting


Keywords


Carotenoid Pigments; G. albolineatus; Column Chromatography; Molting

Full Text:

PDF

References


Abdullah M. R. A., Paransa D. S. J., Mantiri D. M. H., Angkow E. D., Angmalisang P. A., Mudeng J. D., 2018 Distribusi pigmen karotenoid pada kepiting Grapsus sp dengan menggunakan metode kromatografi lapis tipis. Jurnal Pesisir dan Laut Tropis 2(1):19-25.

Britton, G., Jansen, S.L., and Pfander, H. 1995. Caratenoids. Volume 1B. Spectroscopy. Basel, Switzerland. 359 hal.

Harvey, H. 1988. Predation Risk and Moulting Decisions in the Hawaiian Crab Leptodius Sanguineus: The ups and Downs of an Armored Exoskeleton.Universute de Montreal. 178 hal.

Hussein, G., Nakamura, M., Zhao, Q., Iguchi, T., Goto, H., Sankawa,U., and Watanabe, H. 2005. Antihypertensive and neuroprotective effects of astaxanthin in experimental animals. Biol Pharm Bull. 28 (1): 47– 52

Lorenz, R. Todd. 2000. Astaxanthin, Nature’s Super Carotenoid. BioAstinTM Technical Bulletin: 062.

Majchacheep, S. 1989. Marine Animal Of Thailand. Published By Prae Pittaya. Thailand. 270 hal.

Maoka, T. 2011. Carotenoids in marine animals. Marine drugs, 9(2), 278-293.

Mertz, C., Brat. P., Caris-Veyrat, C., and Gunata, Z. 2010. Characterization and thermal lability of carotenoids and vitamin C of tamarin fruit (Solanum betaceum Cav.), Food Chemistry, 119, 653 – 659

Paransa, D. S.J., 2019. Komposisi dan metabolisme pigmen karotenoid pada kepiting batu Grapsus albolineatus berdasarkan waktu penangkapan. Fakultas Perkanan dan Ilmu Kelautan. Universitas Sam Ratulangi. Manado. Disertasi. 151 hal.

Paransa, D. S. J., D. M. H Mantiri., C. Lumenta., M. Ompi., S.B. Pratasik., 2019 Morphological and genetic characteristics of lightfoot crab Grapsus albolineatus Latreille in Milbert, 1812 from Manado Bay, North Sulawesi. AACL Bioflux 12 (3): 804-811.

Poore, Gary C.B. 2004. Marine Decapode Crustacea Of Southern Australia. A Guide To Indentification. CSIRO Publishing. Australia. 574 hal.

Poupin J dan M. Juncker. 2010. A Guide To The Decapod Crustaceans of The South Pasific. Noumea, New Caledonia. 319. Hal

Roberts, J. E., & Dennison, J. 2015. The photobiology of lutein and zeaxanthin in the eye. Journal of ophthalmology, 2015. 2-7 hal.

Sibarani, S. E., Paransa, D. S. J., Kemer, K., Mantiri, D. M., Rumampuk, N. D., & Tumembow, S. S. 2020. Pigmen Karotenoid Pada Kepiting Ozius Sp. Jurnal Pesisir Dan Laut Tropis, 8(1), 47-55.

Silaa A.E., Paransa D.S.J, Rumengan A. P., Kemer K., Rumampuk N. D. C., dan Manengkey H. 2019. Pemisahan Jenis Pigmen Karotenoid Dari Kepiting Grapsus Sp Jantan Menggunakan Metode Kromatografi Kolom. Jurnal Pesisir dan Laut Tropis Volume 7 Nomor 2. Hal 122-128

Skinner, M. Dorothy. 1962. The structur and metabolism of a Crustasean Integument tissue during a molt cycle. The biological Laboratoris.The Biological Bulletin, 123(3), 635-647.

Skinner, M. Dorothy. 1985. Interacting factors in The Control of The Crustasean Molt Cycle. Jurnal American Society of zoologist,25. Hal 275-284.

World Register of Marine spesies http://www.marinespecies.org/aphia.php?p=taxdetails&id=207523. Diakses pada tanggal 24 Februari 2021




DOI: https://doi.org/10.35800/jip.9.1.2021.34421

Refbacks

  • There are currently no refbacks.


Copyright (c) 2021 Fatika Sari Mokoginta, Darus Saadah Johanis Paransa, Kurnati Kemer, James J. H. Paulus, Nickson J. Kawung, Henky Manoppo

Creative Commons License
This work is licensed under a Creative Commons Attribution-NonCommercial 4.0 International License.

ISSN: 2302-3589

Creative Commons License
Platax Scientific Journal under a Creative Commons Attribution-NonCommercial 4.0 International License.

 

Office at:

Faculty of Fisheries and Marine Science, Sam Ratulangi University, Manado 95115, Indonesia


 

Indexed by: