Abstrak - Penyu hijau (Chelonia mydas) merupakan reptil ordo Testudines, famili Cheloniidae yang masuk dalam kategori terancam punah CITES Appendiks I. Populasi penyu hijau semakin menurun disebabkan berbagai macam faktor. Diduga mikroorganisme juga berperan dalam penurunan hasil penetasan. Oleh karena itu perlu dilakukan deteksi cemaran mikroorganisme di kawasan konservasi penyu pangumbahan. Sampel mikroorganisme diambil dari habitat peneluran hingga pra dan pasca penetesan. Kemudian mikroorganisme diidentifikasi menggunakan metode molekuler dan sequencing. Hasil identifikasi menunjukkan mikroorganisme pencemar murni Gram negatif yang bersifat patogen. Golongan bakteri koliform yang terdeteksi adalah E.coli, Salmonella dan Shigella, sedangkan jamur didominasi oleh kapang dan yeast.

Kata Kunci: penyu hijau, Chelonia mydas, cemaran mikroorganisme, konservasi penyu Pangumbahan.

Abstract - Green turtle (Chelonia mydas) is a reptile of Testudines, Cheloniidae family belonging to the endangered category of CITES Appendix I. The population of green turtles is declining due to various factors. Suspected microorganisms also play a role in decreasing hatchery results. Therefore it is necessary to detect microorganisms in the conservation area of turtle pangumbahan. Microorganism samples were taken from spawning habitat up to pre and post penetration. Then the microorganisms were identified using molecular method and sequencing. The identification results show that Gram negative pure microorganisms are pathogenic. Groups of coliform bacteria that are detected are E. coli, Salmonella and Shigella, while mushrooms are dominated by mold and yeast.

Keywords: Green Turtle, Chelonia mydas, microorganism pollution, Pangambahan Turtle Conservation.

Al-Bahry SN, Mahmoud IY, Al-Harthy A, Elshafie AE, Al-Ghafri S, Alkindi AYA & Al-Amri I. 2004. Bacterial contamination in freshly laid egg green turtles Chelonia mydas at Ras Al Hadd reserve, Oman. In: 24 th International Symposium for Sea Turtles. San Jose, Costa Rica.

Al-Bahry SN, Mahmoud IY, Elshafie AE, Al-Hasby A, Al-Ghafei S, Al-Amri I & Al-Kindi AYA. 2009. Ultrastructure features and elemental distribution in eggshell during pre and post hatching periods in the green turtles Chelonia mydasat Ras Al-Hadd Oman. Tiss cell, vol. 42, no. 1, pp. 214-221.

Alkindi AYA, Mahmoud IY, Woller MJ, Plude JL. 2006. Oviductal morphology in relation to hormonal levels in the snapping turtle, Chelydra serpentine. Tiss Cell 38:19–33.

Berrang M, Frank JF, Buhr RJ, Bailey JS, Cox NA. 1996. Effect of hatching cabinet sanitation treatments on Salmonella cross-contamination andhatchability of broiler eggs. Poul Scie 75:191–196.

Bilinski JJ, Reina RD, Spotila JR, Paladino FV. 2001. The effects of nest environment on calcium mobilization by leatherback turtle embryos (Dermochelys coriacea) during development. Com Biochem Phys Part A: Phys 130:151-162.

Ewert M. 1985. Embryology of turtles. Dalam : Gans C, Billeu F, Maderson P. Ed.

Biology of the Reptilia. Vol. 14A. New York: John Wiley and Sons.

Gantois I, Ducatelle R, Pasmans F, Haesebrouck F, Gast R, Humphrey TJ, Immerseel FV. 2009. Mechanisms of egg contamination by Salmonella Enteritidis. FEMS Microbiol Rev 33:4.

IUCN. 2015. Chelonia mydas. http://www.iucnredlist.org/details/summary/4615/0 (Diakses pada 15 April 2016).

Keene. 2012. Microorganisms from Sand, Cloacal Fluid, and Eggs of Lepidochelys olivaceaand Standard Testing of Cloacal Fluid Antimicrobial Propertie. [tesis]. University of Indiana.

Limpus CJ, Kennett R, Whiting S. 2008. A Biological Review of Australian Marine Turtle Species. 2. Green Turtle, Chelonia mydas (Linnaeus). Queensland: Environmental Protection Agency.

Patino-Martinez J, Marco A, Quinones L, Abella E, Abad R & Dieguez-Uribeondo J. 2012. Hoe do hatcheries influence embryonic development of sea turtle eggs? Experimental analysis and isolation of microorganisms in leatherback turtle eggs. J. of Exp. Zool. Vol. 317, no. 1, pp. 47-54.

Phillot AD. 2002. Fungal colonization of sea turtle nests in Eastern Australia. [disertasi]. Central Queensland University.

Phillot AD, Parmenter CJ, McKillup SC. 2006. Calcium depletion of eggshell after fungal invasion of sea turtle eggs. Chelon Conserv Biol 5:146-149.

Robinson J, Griffiths RA. Jeffries P. 2003. Suscept ibility of frog (Rana temporaria) and toad (Bufo bufo) eggs to invasion by Saprolegnia. Amphi Reptil 24:261-268.

Salisbury FB, Ross CW. 1995. Fisiologi Tumbuhan. Bandung: ITB. 132-135.

Simbolon Dennita. 2008. Penambahan mikroorganisme dan asam humik pada tanah latosol dan tanah tailing untuk meningkatkan pertumbuhan dan produksi tanaman jagung (Zea mays L,.). [Skripsi]. Bogor : Institut Pertanian Bogor.

Soslau G, Russell JA, Spotila JR, Mathew AJ& Bagsiyao P. 2011.

Acinetobacter sp. HM 746599 isolated from leatherback turtle blood. FEMS

Microbiology Letters. 322: 166-171.

Spotila JR. 2004. Sea Turtles. A Complete Guide to Their Biology, Behavior, and Conservation. Baltimore : John Hopkins University.

Wicaksono MA. 2014. Analisis mikroorganisme pada telur penyu hijau (Chelonia mydas) dari Taman pesisir pantai penyu pangumbahan Sukabumi. [Skripsi]. Jakarta : Universitas Al-Azhar Indonesia.

Wyneken J, Burke T & Pedersen D. 1988. Egg failure in natural and relocated sea turtle nest. J. of Herpetology. Vol. 22, no. 1, pp. 88-96.