Victor5d ago
Huh? Ciliated protozoan Stentor may be capable of associative learning with habituation. #Protozoan #ciliate #wastewater #Pavlov https://www.biorxiv.org/content/10.64898/2026.02.25.708045v1
Associative learning in the protozoan Stentor coeruleus

The capacity for associative learning in protozoa has been a matter of longstanding controversy. In a series of Pavlovian conditioning experiments with the ciliate Stentor coeruleus , we show that temporally pairing weak and strong mechanical stimuli results in a transiently enhanced contraction response to the weak stimulus. Control experiments rule out several alternative explanations, such as non-associative sensitization or arousal. Parametric manipulation of the conditioning protocol’s temporal structure revealed a systematic dependence of learning on the inter-trial and inter-stimulus intervals, though not in the form classically observed in animals. A simple mathematical model, combining associative learning with habituation, can explain why enhancement is transient, and accurately fits the learning curve at the aggregate level. We conclude that Stentor coeruleus appears capable of associative learning, suggesting an ancient evolutionary origin that preceded the emergence of multicellular nervous systems. ### Competing Interest Statement The authors have declared no competing interest. Schmidt Sciences, https://ror.org/044fk6795, Polymath Award United States Air Force Office of Scientific Research, FA9550-22-1-0345

bioRxiv
Victor5d ago
Huh? Ciliated protozoan Stentor may be capable of associative learning with habituation. #Protozoan #ciliate #wastewater #Pavlov https://www.biorxiv.org/content/10.64898/2026.02.25.708045v1
Associative learning in the protozoan Stentor coeruleus

The capacity for associative learning in protozoa has been a matter of longstanding controversy. In a series of Pavlovian conditioning experiments with the ciliate Stentor coeruleus , we show that temporally pairing weak and strong mechanical stimuli results in a transiently enhanced contraction response to the weak stimulus. Control experiments rule out several alternative explanations, such as non-associative sensitization or arousal. Parametric manipulation of the conditioning protocol’s temporal structure revealed a systematic dependence of learning on the inter-trial and inter-stimulus intervals, though not in the form classically observed in animals. A simple mathematical model, combining associative learning with habituation, can explain why enhancement is transient, and accurately fits the learning curve at the aggregate level. We conclude that Stentor coeruleus appears capable of associative learning, suggesting an ancient evolutionary origin that preceded the emergence of multicellular nervous systems. ### Competing Interest Statement The authors have declared no competing interest. Schmidt Sciences, https://ror.org/044fk6795, Polymath Award United States Air Force Office of Scientific Research, FA9550-22-1-0345

bioRxiv
Warren Currie 🦠🦐Aug 23, 2025
Weekend #Plankton Factoid 🦠🦐
Last week, I mentioned a ciliate that can cause red tide #blooms. Mesodinium rubrum is an example of a unicellular organism that can both injest food and photosynthesize. Its main prey are cryptomonad #algae, which themselves have endosymbiont red algae. The #ciliate doesn't digest some cells, stealing the plastid cloroplasts and nucleus from the algae so it can use them for photosynthsis. This is called kleptoplastidy. #Science #Ecology
https://doi.org/10.1016/j.cub.2023.01.027
Show threadSimeon SchmaußMar 3, 2025
Next up is a #Ciliate. These one-celled organisms are covered in small hairs that they use to move around.
Also, this thing was zooming, I had a hard time to keep up with it!
Lukas VFN 🇪🇺Apr 20, 2024

#Mixotrophs: Neither Plants nor Animals, These Ocean Organisms Protect Their Ecosystems against Heat Waves https://www.scientificamerican.com/article/neither-plants-nor-animals-these-ocean-organisms-protect-their-ecosystems/

Widespread #ciliate and #dinoflagellate #mixotrophy may contribute to ecosystem resilience in a #subarctic sea https://www.int-res.com/abstracts/ame/v90/p1-21/ by Suzanne Strom et al.

"these adaptable mixotrophs can be vital to the entire Gulf of Alaska ecosystem in #HeatWaves because they help to mediate a major consequence of marine #warming: increased stratification"

Neither Plants nor Animals, These Ocean Organisms Protect Their Ecosystems against Heat Waves

Mixotrophs, which have characteristics of both animals and plants, could help blunt the effects of marine heat waves on ocean ecosystems

Scientific American
Stefan F. WirthMar 8, 2024

My #scientific #Blogarticle linked below discusses aspects of options of more than 2 #sextypes in nature and within animals. An example of a #ciliate with 7 different #sexes is presented with new #scientific #findings by researchers.
© #StefanFWirth Berlin 2024

My recent #Blog article:

https://twitter.com/wirthstef/status/1764681063920545939?t=WtoPOUAR_koN4Cy0EWs_yg&s=19

2) Two #Tetrahymena #cells of complementary #matingtypes, author Jmf368w, 2016, licensed under the Creative Commons Attribution-Share Alike 4.0 International license.

Stefan F. Wirth (@wirthstef) on X

About more than two #sextypes in #animals and a species of unicellular #ciliates (#Ciliophora, #Alveolata), which has #seven different #sexes, and about how these forms are recognized. Ciliates are characterized by special features of their morphology and biology (apomorphies).…

X (formerly Twitter)
Joene 🏴Jan 29, 2024

Journey to the Microcosmos: *This Microbe Hasn't Been Seen Since The 1930s*

https://youtube.com/watch?v=zgjo6fAH16I

#ciliate #ciliates #tail #microbiology

This Microbe Hasn't Been Seen Since The 1930s

YouTube
CellBioNewsOct 31, 2023

Unveiling the wonders of #ciliate #conjugation: Insights from #Paramecium jenningsi.

#micronucleus #macronucleus #synkaryon

https://phys.org/news/2023-10-unveiling-ciliate-conjugation-insights-paramecium.html

Unveiling the wonders of ciliate conjugation: Insights from Paramecium jenningsi

Ciliate protozoa possess the remarkable ability to reproduce through both asexual and sexual means. Their distinctive sexual process involves conjugation and autogamy, and they wield a secret weapon: extraordinary nuclear dimorphism. Within each cell resides both a germline micronucleus (MIC) and a somatic macronucleus (MAC). When subjected to fluorescent staining, their sexual processes transform into a captivating kaleidoscope of vibrant colors, creating a cellular carnival of vibrant colors.

Phys.org
BongolianOct 16, 2023

The single-celled predatory #ciliate (Lacrymaria olor)

#microbiology
https://www.nikonsmallworld.com/galleries/2016-small-world-in-motion-competition/the-predatory-ciliate-lacrymaria-olor

The predatory ciliate (Lacrymaria olor) | 2016 Small World In Motion Competition

Charles Krebs - The predatory ciliate (Lacrymaria olor)

Nikon’s Small World
NIOO-KNAWOct 13, 2023
New NIOO publication: The combined effect of pH and dissolved inorganic #carbon concentrations on the physiology of plastidic #ciliate Mesodinium rubrum and its #cryptophyte prey. #acidification #mesodiniumrubrum #teleaulax
https://doi.org/10.1016/j.hal.2023.102509