Southeast Asia’s First Coral Larvae Cryobank

Source: TH

Context: The Philippines has launched Southeast Asia’s first coral larvae cryobank, a pioneering initiative to freeze and preserve coral “seeds” to protect marine biodiversity and revive damaged reefs.

About Southeast Asia’s First Coral Larvae Cryobank:

What it is?

• A scientific facility that freezes and stores coral larvae at ultra-low temperatures to preserve their genetic material for future use in reef restoration or research.

• Functions as a “genetic seed vault” for corals, helping safeguard biodiversity that could be lost due to climate change and coral bleaching.

Nations Involved:

• The project is part of a regional network under the Coral Research & Development Accelerator Platform.

• Participating countries include the Philippines, Taiwan, Indonesia, Malaysia, and Thailand.

How It Works?

• Collection of Coral Larvae: Coral larvae — the free-swimming reproductive stage — are collected during spawning events.

• Cryoprotection: The larvae are exposed to cryoprotective solutions that prevent ice crystal formation during freezing.

• Vitrification Process: Using a rapid freezing technique, larvae are plunged into liquid nitrogen at –196°C, turning them into a glass-like state without crystallisation.

• Revival Process: When needed, laser-based rapid warming thaws the samples within seconds, preventing cell damage.

• Rehydration & Growth: Revived larvae are rehydrated in seawater, monitored for movement and settling, then transferred to controlled tanks for coral regrowth.

Features:

• Preserves Coral Genetic Diversity: Maintains coral genotypes for decades, even if species vanish in the wild.

• Climate-Resilient Restoration: Enables reef revival using cryopreserved material, supporting adaptive restoration in warming oceans.

• Research Resource: Provides a long-term data bank for studying coral evolution, reproduction, and stress resistance.

• Collaborative Network: Integrates regional expertise to create a Coral Triangle Cryobank Network, ensuring shared protocols and data.

• Model Species Approach: Begins with hardy corals like Pocillopora, Acropora, and Galaxsia before expanding to endangered ones.

Limitations:

• Technical Complexity: Coral larvae are large, lipid-rich, and heat-sensitive, making vitrification challenging.

• Species-Specific Protocols: Each coral species requires different freezing and revival parameters.

• Low Survival Rates: Not all thawed larvae survive or successfully recolonise reefs.

• Infrastructure and Cost: Requires specialised labs, liquid nitrogen systems, and expert training, limiting scalability in developing nations.