Mitigating Hypoxic Stress in Juvenile Abalone (Haliotis squamata) through Optimized Carbohydrate Diets: Insights into Survival and Biochemical Adaptations

Dyahruri Sanjayasari; Wahyu Adi Septriono; Supono Supono; Amron Amron; Sesilia Rani Samudra; Mahardhika Nur Permatasari; Hery Irawan; Ainulyakin Hasan Imlani

doi:10.14710/ik.ijms.30.4.497-506

DOI: https://doi.org/10.14710/ik.ijms.30.4.497-506

Mitigating Hypoxic Stress in Juvenile Abalone (Haliotis squamata) through Optimized Carbohydrate Diets: Insights into Survival and Biochemical Adaptations

Dyahruri Sanjayasari^{1, 2}

, Wahyu Adi Septriono¹

, Supono Supono³

, Amron Amron¹

, Sesilia Rani Samudra¹

, Mahardhika Nur Permatasari¹

, Hery Irawan¹

, Ainulyakin Hasan Imlani⁴

¹Fisheries and Marine Science Faculty, Jenderal Soedirman University, Indonesia

²Research Centre of Biodiversity and Maritime for Research and Community Service Institute of Jenderal Soedirman University, Indonesia

³Research Centre for Fishery, National Research and Innovation Agency, Indonesia

⁴ Mindanao State University-Tawi-Tawi College of Technology and Oceanography Sanga-Sanga, Philippines

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Received: 14 Sep 2025; Revised: 7 Oct 2025; Accepted: 7 Nov 2025; Available online: 2 Dec 2025; Published: 16 Dec 2025.

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

BibTex Citation Data :

@article{IK.IJMS70213,
    author = {Dyahruri Sanjayasari and Wahyu Septriono and Supono Supono and Amron Amron and Sesilia Samudra and Mahardhika Permatasari and Hery Irawan and Ainulyakin Imlani},
    title = {Mitigating Hypoxic Stress in Juvenile Abalone (Haliotis squamata) through Optimized Carbohydrate Diets: Insights into Survival and Biochemical Adaptations},
    journal = {ILMU KELAUTAN: Indonesian Journal of Marine Sciences},
  volume = {30},
    number = {4},
    year = {2025},
    keywords = {carbohydrate; survival; juvenile abalone; Haliotis squamata; biochemical composition; hypoxia},
    abstract = {  Abalone (Haliotis squamata) is a high value marine mollusk with significant aquaculture potential in Indonesia. However, the production of this species faces major constraints, especially during the grow-out phase, due to high juvenile mortality during transport, primarily caused by hypoxic stress. This study investigated the effect of high carbohydrate diets on the physiological response and survival of juvenile abalone under simulated dry shipping-induced hypoxia. A total of 120 juveniles were fed five diets (Gracilaria sp. as a control, and formulated feeds with 25%, 35%, 45%, and 55% carbohydrate content) for 30 days prior the hypoxia treatment. The juveniles were then subjected to hypoxic conditions for 6, 12, and 24 h. All abalones survived the feeding period, but only individuals fed with 55% carbohydrate survived after 24 h of hypoxia. Abalones receiving 45% and 55% carbohydrate diets showed the highest protein and carbohydrate accumulation, respectively. Biochemical analysis revealed that hypoxia triggered a decrease in protein content, stable lipid levels, and fluctuating carbohydrate reserves. These results highlight the critical role of carbohydrates in supporting abalone under hypoxic stress and suggest that carbohydrate enriched diets could reduce mortality during dry transport and improve aquaculture outcomes.  },
   issn = {2406-7598},   pages = {497--506}  doi = {10.14710/ik.ijms.30.4.497-506},
    url = {https://ejournal.undip.ac.id/index.php/ijms/article/view/70213}
}

Citation Format:

Abstract

Abalone (Haliotis squamata) is a high value marine mollusk with significant aquaculture potential in Indonesia. However, the production of this species faces major constraints, especially during the grow-out phase, due to high juvenile mortality during transport, primarily caused by hypoxic stress. This study investigated the effect of high carbohydrate diets on the physiological response and survival of juvenile abalone under simulated dry shipping-induced hypoxia. A total of 120 juveniles were fed five diets (Gracilaria sp. as a control, and formulated feeds with 25%, 35%, 45%, and 55% carbohydrate content) for 30 days prior the hypoxia treatment. The juveniles were then subjected to hypoxic conditions for 6, 12, and 24 h. All abalones survived the feeding period, but only individuals fed with 55% carbohydrate survived after 24 h of hypoxia. Abalones receiving 45% and 55% carbohydrate diets showed the highest protein and carbohydrate accumulation, respectively. Biochemical analysis revealed that hypoxia triggered a decrease in protein content, stable lipid levels, and fluctuating carbohydrate reserves. These results highlight the critical role of carbohydrates in supporting abalone under hypoxic stress and suggest that carbohydrate enriched diets could reduce mortality during dry transport and improve aquaculture outcomes.

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Keywords: carbohydrate; survival; juvenile abalone; Haliotis squamata; biochemical composition; hypoxia

Funding: Universitas Jenderal Soedirman under contract LPPM under contract , No. 770/UN23/PT.01.02/2024

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Section: Research Articles

Language : EN

In Vol 30, No 4 (2025): Ilmu Kelautan

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