Elephants use a large number of neurons to control their trunk and ears

in Popular STEM2 years ago (edited)

image.png
(Wikimedia Commons / Byrdyak https://bit.ly/3gQyfuL)

A team of researchers from Humboldt University of Berlin have found that the nucleus of the facial nerve of elephants contains an exceptionally large number of neurons.

The zoologists and neuroscientists, led by Lena Kaufmann attribute this to the control of the trunk and ears.

Modern methods of research allow us to better understand how humans and animals work.

Last year, scientists from 13 laboratories managed to compile an atlas of neurons in the primary motor cortex of mammals based on data from humans, marmosets and mice.

However, despite the large number of studies about the structure and functions of the brain of various animals, much is still unknown.

One of these mysteries is the elephants brain, due to the difficulty of obtaining samples for research.



THE STUDY
Now, Kaufmann and her team have accumulated enough material to finally study the brains of the Savannah (Loxodonta africana) and Asian elephant (Elephas maximus).

They focused on the neurons in the nucleus of the facial nerve, which control the muscles of the face of four individuals of each species.

To count neurons in the nucleus of the facial nerve of elephants, the authors used two methods:

  • the method of optical fractionation
  • the method of counting all neurons in every tenth slice

Both methods showed similar results:

  • an average of 62961-63202 neurons in the bush elephant
  • 52146-54103 in the Asian elephant

Next, Kaufmann’s team tested whether the large number of facial neurons was really associated with the elephants' large brain weight of 4.7 kilograms alone.

They conducted an allometric analysis, which shows the relationship between two quantities (the number of neurons in the nucleus of the facial nerve) in the form of a power law equation.

This allows scale symmetry to be expressed, which is important when comparing mammals of different sizes.

Using this method, the authors built a logarithmic graph comparing the number of facial neurons in elephants and other mammalian species.

There were several times more such neurons in elephants than expected in primates in the translated scale - the difference was three 95% confidence intervals.

The next step was the comparison of the subnuclei responsible for the movement of facial muscles of the two species of elephants and other mammals.

image.png
(Michael Brecht / Science Advances, 2022 https://bit.ly/3SIwi0V)

Kaufmann hypothesized that the dorsal and lateral subnuclei in elephants may be responsible for the dorsal and ventral trunk muscles.

The authors based their belief on several reasons. But they focused on the topography of the nucleus regions responsible for different facial muscles in mammals, amd the large size and elongated shape of the dorsal and lateral subnucleus

Their assumptions were also confirmed by comparing the number of axons in the branches of the facial nerve and the corresponding subnuclei.



HOWEVER
The question also remained as to why bush elephants have more facial neurons than Asians.

One reason is the size of the ears. It takes about 11965 neurons to control large ears in bush elephants, and 7498 in Asian elephants.

In addition, the trunk of bush elephants has two processes, which allows them to capture objects

The Asian elephants do not have such processes, so they can only take the object by completely hugging him with their trunk.

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 2 years ago (edited)

This is interesting.

Kaufmann hypothesized that the dorsal and lateral subnuclei in elephants may be responsible for the dorsal and ventral trunk muscles.

I've read before that the human body wouldn't benefit from more fingers because our brains our already max'ed out controlling ten of them (ask a piano player how much concentration it takes to perform at high levels), so it definitely makes sense to me that dedicated neurons would be needed to control an elephant's trunk and ears.

As far as complexity and raw numbers of neurons go, though, I would think that controlling ten independent fingers is more complex than controlling 1 trunk and two ears, so I'm not sure why elephants would need a larger number of neurons than humans (after adjusting for volume).

Edited to add: It's also interesting that the log graph you mentioned puts dolphins even higher than elephants, and they don't have fingers, trunks, or large and movable ears.

I'm not sure about us having problems with more digits. I remember an experiment some years ago where a person was given a robotic sixth finger. It took him little time to get used to it and eventually when it was taken away the brain missed the extra digit.

I'll look for it.

Here it is:
https://www.ucl.ac.uk/news/2021/may/robotic-third-thumb-use-can-alter-brain-representation-hand

I remember reading even older, tho. Perhaps I'm mixing memories.

 2 years ago 

I'm not sure about us having problems with more digits.

I'll never remember where or when I read that. It was some time ago. But this would suggest that maybe it was wrong, anyway.

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