I have been told the number of muscle fibers a particular muscle has varies from person to person. Unfortunately, the person who told me this did not know much more than this. Initial searching on the web did not reveal much detail on this; some random sources suggested there was a correlation but they weren't referenced.

Is there a general correlation between the number of muscle fibers and body type (mesomorph, endomorph, ectomorph)?

What about a correlation between muscle fiber type (Type I/Type IIa/Type IIx/Type IIb) and body type?

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    $\begingroup$ Don't know about fibre numbers, but there is a correlation between fibre types and athletic ability, in that the ratio of type I to II (slow-twitch vs fast-twitch) determines whether a person would be naturally good at sprinting vs endurance activities. If you google for something like "striated muscle fibre twitch endurance" you should find quite a bit on that. I would imagine that your somatotypes would be quite influenced by fibre type ratio... $\endgroup$ Commented Feb 5, 2012 at 14:34
  • $\begingroup$ Body type is something about your constitution. I would probably formulate the question differently to ask for correlation between muscle types and physical strength/endurance, for there is some known correlations here (as @Amanda mentioned in her comment). $\endgroup$ Commented Feb 5, 2012 at 15:23

2 Answers 2


A recent paper called 'Genetic Influences in Sport and Physical Performance'[1] states:

"Muscle fibre type determination is complex. Whilst initial composition is likely to be strongly influenced by genetic factors, training has significant effects on fibre shifts."

They also go onto say that:

"However, the role of genetic variation in determining psychological state and responses remains poorly understood; only recently have specific genes been implicated in motivational behaviour and maintenance of exercise."


"With the current state of knowledge, the field of genetic influences on sports performance remains in its infancy, despite over a decade of research."

An older paper which also examined fiber types stated that:

"These results reveal the existence of large interindividual variability and gender differences in the most common characteristics of the human skeletal muscle."[4].

Another study hypothesises that there may be racial differences in muscle fibre types.[2]. It's also said that a large variation in fiber composition of skeletal muscle within subgroups of athletic ability. This suggests that factors other than fiber-type composition contribute to performance.[3].

A small study carried out in the Croatian Navy found that ectomorphs had a better ability to sprint than endomorphs.[5]. They also found a positive correlation between calf girth and sprinting ability.

The information is a bit disjointed and sparse. However, to finally come around to the question at hand, it seems that although there may be differences according to body type initially (which obviously also has a genetic basis), training and physical activity contributes significantly to what number and types of fibres individuals possess.

There are lots of sport-specific research papers examining individuals' performance and suitability on body types.

A note on somatotyping: I guess it might also be handy note that somatotyping (endomorph, ectomorph and mesomorph) is just one theory on measuring an individual and it does have critics. The theory was initially developed in an attempt to link body type to behaviour.

It's been suggested that measurements like BMI are much more objective and useful.[6]. Another point made was that bodies change according to a number of environmental variables, nutrition etc.[7]. For example, one study suggested that intense labour during adolescence may affect somatotype (there are a few similar studies).[8]. So perhaps while using somatotypes to identify a person at one point in time is useful, it has limits in use as a long term classification.

This point probably has more relevance to the question at hand since with training and physical activity, a person can potentially change their somatotype at least to some extent; and also the number and types of muscle fibers (which evidence supports).

  1. Puthucheary Z, et al. Genetic influences in sport and physical performance. Sports Med. 2011. 41:845-59.

  2. Nielsen J. Glucose intolerance in the West African Diaspora: a skeletal muscle fibre type distribution hypothesis. Acta Physiol. 2011. 202(4):605-16.

  3. DeLee: DeLee and Drez's Orthopaedic Sports Medicine. 3rd ed. Saunders.

  4. Simoneau, et al. Human variation in skeletal muscle fiber-type proportion and enzyme activities. AJP - Endo. 1989. 257(4):567-572.

  5. Sporis G. Impact of body composition on performance in fitness tests among personnel of the Croatian navy. Coll Antropol. 2011. 35(2):335-9.

  6. Maddan, et al. The BMI as a somatotypic measure of physique: A rejoinder to Jeremy E.C. Genovese. The Social Science Journal. 2009. 46:394–401.

  7. Parnell. Simplified somatotypes Original Research Article. Journal of Psychosomatic Research. 1964. 8(3):311-315.

  8. Ozener, et al. The effect of labour on somatotype of males during the adolescent growth period. Homo. 2008. 59(2):161-72.

  • $\begingroup$ Awesome, I will look into all those papers for sure :) $\endgroup$
    – stoicfury
    Commented Mar 23, 2012 at 23:21

I have been studying somatotypes on my own since 1994 and yes, I have been observing the total correlation between biotypes and the predominance of one type of muscle fiber in relation to others. Since 1985 I have been developing a training system that is exactly above the differentiation of biotypes. I was able to develop a fiber differentiation system through a localized stress test. This test allows me to leave through a result obtained the qualification of fibers predominant in a certain muscle group. Through these observations I can safely affirm that YES, there is a pattern that repeats and shows that there is a very close correlation.Although this test has a great margin of subjectivity, it has been helping me and proving very effective

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    $\begingroup$ Welcome. Can you add sources to your answer? If you are an expert as you claim, adding some relevant references to allow other users to background read on your topic shouldn't be much of an issue. Thanks. $\endgroup$
    – AliceD
    Commented Apr 23, 2018 at 8:03

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