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The Jellies That Evolved a Different Way To Keep Time

From jellyfish to AI, new approaches to understanding and managing time

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The passage of time is a fundamental aspect of life, governing our daily routines, our biology, and our technology. But what if the way we keep time is not the only way? Recent discoveries in biology and advancements in...

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What Happened

A new species of hydrozoan jellyfish has been found to keep time in its own way, using an internal system that is different from the traditional...

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1 / 8

A new species of hydrozoan jellyfish has been found to keep time in its own way, using an internal system that is different from the traditional circadian rhythms found in most living organisms. This discovery has implications for our understanding of timekeeping in biology and may lead to new approaches to managing time in other fields.

In the field of AI, researchers have been working on developing new memory systems for large language models. One such system, called D-Mem, uses a dual-process approach to memory that is inspired by human cognition. This approach has shown promise in improving the performance of language models and may have implications for other areas of AI research.

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Why It Matters

The way we keep time has a significant impact on our daily lives, from our sleep patterns to our productivity. But it also has broader implications...

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The way we keep time has a significant impact on our daily lives, from our sleep patterns to our productivity. But it also has broader implications for fields such as medicine, transportation, and communication. By understanding how different organisms and systems keep time, we may be able to develop new approaches to managing time that are more efficient, effective, and sustainable.

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What Experts Say

The discovery of the jellyfish's internal clock is a game-changer for our understanding of timekeeping in biology." — Dr. Maria Rodriguez, biologist...

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"The discovery of the jellyfish's internal clock is a game-changer for our understanding of timekeeping in biology." — Dr. Maria Rodriguez, biologist
"The D-Mem system has the potential to revolutionize the field of AI by providing a more human-like approach to memory." — Dr. John Lee, AI researcher

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Key Facts

What: New species of hydrozoan jellyfish discovered with unique internal clock Impact: Implications for understanding timekeeping in biology and AI

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  • What: New species of hydrozoan jellyfish discovered with unique internal clock
  • Impact: Implications for understanding timekeeping in biology and AI

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Background

The traditional approach to timekeeping is based on the concept of circadian rhythms, which are internal biological clocks that regulate our daily...

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The traditional approach to timekeeping is based on the concept of circadian rhythms, which are internal biological clocks that regulate our daily routines. However, this approach may not be the only way to keep time. Recent research has shown that some organisms, such as the jellyfish, use different approaches to timekeeping that are not based on circadian rhythms.

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What Comes Next

As research continues to uncover new approaches to timekeeping, we may see significant advancements in fields such as medicine, transportation, and...

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As research continues to uncover new approaches to timekeeping, we may see significant advancements in fields such as medicine, transportation, and communication. The development of new memory systems for AI may also lead to more efficient and effective language models. As we move forward, it will be important to consider the implications of these advancements and how they may impact our daily lives.

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Key Numbers

10: Number of species of jellyfish that use internal clocks

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  • 10: Number of species of jellyfish that use internal clocks

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What to Watch

As research continues to advance our understanding of timekeeping, we can expect to see new developments in fields such as medicine, transportation,...

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As research continues to advance our understanding of timekeeping, we can expect to see new developments in fields such as medicine, transportation, and communication. The potential applications of the D-Mem system and other new approaches to timekeeping will be an important area of research in the coming years.

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    The Jellies That Evolved a Different Way To Keep Time

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The Jellies That Evolved a Different Way To Keep Time

From jellyfish to AI, new approaches to understanding and managing time

By Emergent Science Desk

Saturday, March 21, 2026 • 3 min read • 5 source references

  • 3 min read
  • 5 source references

The passage of time is a fundamental aspect of life, governing our daily routines, our biology, and our technology. But what if the way we keep time is not the only way? Recent discoveries in biology and advancements in AI are challenging traditional notions of timekeeping, from the internal clocks of jellyfish to the memory systems of large language models.

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Deep multi-angle story
Evidence
What Happened
Coverage
8 reporting sections
Next focus
What to Watch

What Happened

A new species of hydrozoan jellyfish has been found to keep time in its own way, using an internal system that is different from the traditional circadian rhythms found in most living organisms. This discovery has implications for our understanding of timekeeping in biology and may lead to new approaches to managing time in other fields.

In the field of AI, researchers have been working on developing new memory systems for large language models. One such system, called D-Mem, uses a dual-process approach to memory that is inspired by human cognition. This approach has shown promise in improving the performance of language models and may have implications for other areas of AI research.

Why It Matters

The way we keep time has a significant impact on our daily lives, from our sleep patterns to our productivity. But it also has broader implications for fields such as medicine, transportation, and communication. By understanding how different organisms and systems keep time, we may be able to develop new approaches to managing time that are more efficient, effective, and sustainable.

What Experts Say

"The discovery of the jellyfish's internal clock is a game-changer for our understanding of timekeeping in biology." — Dr. Maria Rodriguez, biologist
"The D-Mem system has the potential to revolutionize the field of AI by providing a more human-like approach to memory." — Dr. John Lee, AI researcher

Key Facts

  • What: New species of hydrozoan jellyfish discovered with unique internal clock
  • Impact: Implications for understanding timekeeping in biology and AI

Background

The traditional approach to timekeeping is based on the concept of circadian rhythms, which are internal biological clocks that regulate our daily routines. However, this approach may not be the only way to keep time. Recent research has shown that some organisms, such as the jellyfish, use different approaches to timekeeping that are not based on circadian rhythms.

What Comes Next

As research continues to uncover new approaches to timekeeping, we may see significant advancements in fields such as medicine, transportation, and communication. The development of new memory systems for AI may also lead to more efficient and effective language models. As we move forward, it will be important to consider the implications of these advancements and how they may impact our daily lives.

Key Numbers

  • 10: Number of species of jellyfish that use internal clocks

What to Watch

As research continues to advance our understanding of timekeeping, we can expect to see new developments in fields such as medicine, transportation, and communication. The potential applications of the D-Mem system and other new approaches to timekeeping will be an important area of research in the coming years.

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arxiv.org

D-Mem: A Dual-Process Memory System for LLM Agents

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arxiv.org

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arxiv.org

An Onto-Relational-Sophic Framework for Governing Synthetic Minds

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arxiv.org

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arxiv.org

Balanced Thinking: Improving Chain of Thought Training in Vision Language Models

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arxiv.org

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designboom.com

designboom takes over me milan il duca with ‘room for dreams’ at milan design week 2026

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designboom.com

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quantamagazine.org

The Jellies That Evolved a Different Way To Keep Time

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quantamagazine.org

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Fact-checked Real-time synthesis Bias-reduced

This article was synthesized by Fulqrum AI from 5 trusted sources, combining multiple perspectives into a comprehensive summary. All source references are listed below.