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All Journal HAYATI Journal of Biosciences
Irhamna Putri Rahmawati
Yayasan Konservasi Alam Yogyakarta-Wildlife Rescue Centre Jogja, Yogyakarta 55167, Indonesia
Agriculture, Biological Sciences & Forestry Earth & Planetary Sciences

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Mitochondrial Genetic Diversity in a Captive Malaysian Giant Turtle (Orlitia borneensis) Population: Implications for Conservation Breeding Andreas Bandang Hardian; Irhamna Putri Rahmawati; Josephine Vanda Tirtayani; Nathan Rusli; Berta Alviyanto; Randy Kusuma; Adwitiya Irene Kumaralalita; Danuja Widigdaya; Safira Kinanti Pribadi; Tania Salsabila Utari; Fitri Ekasari; Anastasia Cahyakusuma Wahyuningtyas; Rini Widayanti; Herdhanu Jayanto
HAYATI Journal of Biosciences Vol. 33 No. 4 (2026): July 2026
Publisher : Bogor Agricultural University, Indonesia

Show Abstract | Download Original | Original Source | Check in Google Scholar | DOI: 10.4308/hjb.33.4.974-991

Abstract

Generating genetically sustainable assurance colonies of critically endangered Malaysian giant turtles (Orlitia borneensis) for in situ genetic rescue and population reinforcement initiatives requires intensive exploration of genetic profiles, beyond merely providing  reproductive viable individuals. When a pedigree and history report are unavailable, a conservation breeding program requires additional genetic information to justify the individual's relatedness and prevent inbreeding and crossbreeding. We proposed a genetic-distance-based parental candidate determination using sequence analyses of mitochondrial ATP synthase subunits 8 and 6 (ATP86), cytochrome c oxidase subunit 1 (CO1), cytochrome B (CytB), and NADH dehydrogenase subunit 4 (ND4). Our study aimed to explore population structure, haplotypes, presumptive genetic localities, and potential genetic markers to determine individuals as parental stock. Our primers successfully amplified partial sequences of the aforementioned encoding genes. Sequence analyses and median-joining haplotype computation revealed potential geographic localities and haplotypes, indicating the presence of conserved populations of the Malaysian giant turtles in Malaysia and Indonesia. Moreover, there was evidence of the establishment of island-based localities in the Sumatra-Belitung cluster population. Our study suggested that more haplotypes and localities, based on Malaysian giant turtle genetics, need to be considered in the captive breeding program. These genetic diversities are pivotal as options and references for pairing parental stocks, helping to prevent heterosis and the loss of specific genetic traits within the Malaysian giant turtle population.
Co-Authors Adwitiya Irene Kumaralalita Anastasia Cahyakusuma Wahyuningtyas Andreas Bandang Hardian Berta Alviyanto Danuja Widigdaya Fitri Ekasari Herdhanu Jayanto Josephine Vanda Tirtayani Nathan Rusli Randy Kusuma Rini Widayanti Safira Kinanti Pribadi Tania Salsabila Utari