Slime mold uses an externalized spatial "memory" to navigate in complex environments.

Chris R Reid, Tanya Latty, Audrey Dussutour, Madeleine Beekman

October 2012

Synopsis of Social media discussions

The discussions emphasize the remarkable problem-solving skills of slime molds, citing examples like navigating mazes and comparing the externalized memory to artificial intelligence methods. The tone is curious and appreciative, highlighting the research's importance and innovative nature, which signals high relevance and transformative potential.

A
Agreement
 Strong agreement

Most posts strongly affirm the significance of the research, emphasizing the mold’s problem-solving abilities and externalized memory, indicating full agreement with the study’s implications.

I
Interest
 High level of interest

Posts demonstrate high curiosity, referencing related papers and broader implications, reflecting strong engagement with the topic.

E
Engagement
 High engagement

Comments include detailed examples, such as comparing slime mold's navigation to deep reinforcement learning and mentioning external cognition, showing deep analytical discussion.

I
Impact
 High level of impact

Discussions highlight the revolutionary potential of understanding non-neuronal memory systems, suggesting significant influence on fields like robotics, AI, and cognitive science.

Social Mentions

YouTube

3 Videos

Bluesky

1 Posts

Facebook

16 Posts

Twitter

14 Posts

Blogs

18 Articles

News

32 Articles

Reddit

3 Posts

Metrics

Video Views

4,847,294

Total Likes

160,831

Extended Reach

4,919,972

Social Features

87

Timeline: Posts about article

Top Social Media Posts

Posts referencing the article

Discovering Habituation in Smart Slime Moulds

Discovering Habituation in Smart Slime Moulds

Researchers demonstrate that the slime mould Physarum polycephalum can exhibit habituation, a form of learning typically associated with neural organisms. This groundbreaking discovery suggests non-neural organisms, like slime moulds, may offer insights into the fundamental mechanisms of learning.

Ze Frank

January 31, 2023

3,904,862 views

Habituation Insights: Learning in Slime Molds

Habituation Insights: Learning in Slime Molds

This video explores the capabilities of slime molds, specifically Physarum polycephalum, to exhibit habituation—a learning process seen in neural organisms. Discover how these remarkable creatures respond to repeated stimuli and their potential roles in understanding learning evolution.

TrueFactsEducational

February 4, 2023

939,818 views

Fascinating Learning Abilities of Physarum Polycephalum in Space Exploration

Fascinating Learning Abilities of Physarum Polycephalum in Space Exploration

Ni animal ni végétal ni champignon le Blob fait preuve de capacités étonnantes telles que l'apprentissage. This video explores five surprising facts about Physarum polycephalum, a unicellular organism capable of memory and adaptation, with potential applications in space.

NeuroCurieux

March 30, 2021

2,615 views

  • Jitendra Kumar Sharma
    @jkumarsharma998 (Twitter)

    RT @_rockt: A slime mold can solve what millions of steps of tabula-rasa deep reinforcement learning can't. Reid, C. R., Latty, T., Dussut…
    view full post

    August 5, 2025

    6

  • Phillip J.K. Christoffersen
    @philljkc (Twitter)

    RT @_rockt: A slime mold can solve what millions of steps of tabula-rasa deep reinforcement learning can't. Reid, C. R., Latty, T., Dussut…
    view full post

    January 18, 2025

    6

  • Sharath Raparthy
    @sharathraparthy (Twitter)

    RT @_rockt: A slime mold can solve what millions of steps of tabula-rasa deep reinforcement learning can't. Reid, C. R., Latty, T., Dussut…
    view full post

    January 5, 2025

    6

  • Zhipeng Huang
    @nopainkiller (Twitter)

    RT @_rockt: A slime mold can solve what millions of steps of tabula-rasa deep reinforcement learning can't. Reid, C. R., Latty, T., Dussut…
    view full post

    January 4, 2025

    6

  • Jiri Fajtl
    @ok1zjf (Twitter)

    RT @_rockt: A slime mold can solve what millions of steps of tabula-rasa deep reinforcement learning can't. Reid, C. R., Latty, T., Dussut…
    view full post

    January 4, 2025

    6

  • Pasquale Minervini
    @PMinervini (Twitter)

    RT @_rockt: A slime mold can solve what millions of steps of tabula-rasa deep reinforcement learning can't. Reid, C. R., Latty, T., Dussut…
    view full post

    January 4, 2025

    6

  • Tim Rocktäschel
    @_rockt (Twitter)

    A slime mold can solve what millions of steps of tabula-rasa deep reinforcement learning can't. Reid, C. R., Latty, T., Dussutour, A., & Beekman, M. (2012). Slime mold uses an externalized spatial “memory” to navigate in complex environments. Proceedings of the National Academy https://t.co/ZRdSr0h5Sw
    view full post

    January 4, 2025

    70

    6

  • Umberto León Domínguez
    @umbertoleon (Twitter)

    El Slime Mold (fungi) tiene extended cognition https://t.co/s79GaaJTzZ https://t.co/mNMqyUUZGM
    view full post

    January 30, 2024

    1

  • Dios, que pereza ser yo
    @JCHxD1 (Twitter)

    RT @wildbehav: Os dejo por aquí unos papers sobre este fascinante moho que en realidad es una ameba #NingunHiloSinSuPaper https://t.co/2Z…
    view full post

    May 3, 2023

    2

  • Jaminton
    @Jaminton777 (Twitter)

    RT @wildbehav: Os dejo por aquí unos papers sobre este fascinante moho que en realidad es una ameba #NingunHiloSinSuPaper https://t.co/2Z…
    view full post

    May 2, 2023

    2

  • Mary WildBehav
    @wildbehav (Twitter)

    Os dejo por aquí unos papers sobre este fascinante moho que en realidad es una ameba #NingunHiloSinSuPaper https://t.co/2ZrCMukXg5 https://t.co/YxKr74e3LI https://t.co/OyrVdtdKKd https://t.co/WFitTz5Ryj https://t.co/GtIiICxsEV
    view full post

    May 2, 2023

    12

    2


  • @ivacheung.com (Bluesky)

    https://www.youtube.com/watch?v=k_GTIL7AECQ
    view full post

    January 31, 2023

  • NottingHillNapoleon
    @N_H_Napoleon (Twitter)

    Came across this great paper while doing some out-of-the-box research while coding a ConceptNet literal to metaphor translator. You don't necessarily need internal intelligence to come up with smart solutions. https://t.co/VII0bCE99g
    view full post

    January 30, 2023

  • Protonize
    @TheProtShow (Twitter)

    # How Can a Slime Mold Solve a Maze? The Physiology Course is Finding Out, 2017 https://t.co/nz5ZCknyTL _________________________ #Slime mold uses an externalized spatial “memory” to navigate in complex environments, 2012 https://t.co/Vy3i5iilqT
    view full post

    July 7, 2021

  • John Walling
    @JohnKI7YRA (Twitter)

    Slime mold uses an externalized spatial “memory” to navigate in complex environments https://t.co/eg2wzWrPUi I use the placement of objects as externalized memory, not just for spatial memory, but also for task memory.
    view full post

    December 8, 2020

Abstract Synopsis

  • The slime mold Physarum polycephalum, which has no brain, can develop an external form of spatial memory by avoiding areas it has previously explored, helping it navigate complex environments.
  • This externalized memory allows the slime mold to solve the Ushaped trap problem, a test requiring it to bypass barriers and reach a goal, demonstrating advanced navigational skills without gradient-following.
  • The study suggests that such external spatial memory in slime molds supports the idea that simple, non-neuronal organisms use external memory systems as a precursor to the internal memory seen in more complex animals.