Krebs cycle said:
Don't jump on the bandwagon dude. You evidently know more about physiology than some of the trolls around here, but you made some assumptions in your post earlier that were incorrect, specifically the bit about high VO2max and high % type II fibres. Learn and understand what MAOD is first then read the following.....
I very much understand MAOD. Perhaps I should have been both clearer on relative vs. absolute comparison and should have been more specific in details. I certainly agree that compared to a pure sprinter, pursuit cyclists require a measure of endurance and I apologize for any ambiguity on my part.
From a MAOD, the following expresses my examples:
http://www.ncbi.nlm.nih.gov/pubmed/2072841
"MAOD (in O2 equivalents-ml.kg-1) was higher for the sprinters (78) and middle distance runners (74) than for the long distance runners (56) and control subjects (56) (P less than or equal to 0.05), indicating a greater anaerobic capacity for the former two groups."
Keep in mind MAOD does not well predict endurance performances of greater than an hour, perhaps even less than that.
Reading your citations, I see no inconsistency with anything I stated.
http://www.ncbi.nlm.nih.gov/pubmed/8223521
"The highest significant correlations were found among IP4000 and the following: VO2max (ml.kg-2/3.min-1; r = -0.79), power output at lactate threshold (Wthla)"
Confirms my point about high power and high VO2 max...
http://www.ncbi.nlm.nih.gov/pubmed/8776208
"The findings of this study demonstrate that sprint cyclists can fully express their anaerobic capacity within an event specific 70 s all-out test and that these cyclists progressively decrease their anaerobic capacity during a 120 s, 115% VO2max (mean time = 210 s) or 300 s test, despite giving all-out efforts. Conversely, track endurance cyclists achieve their highest mean score during an event specific 300 s test and their lowest during a 70 s test. "
Consistent with my statements on the characteristics of sprinters...
http://www.ncbi.nlm.nih.gov/pubmed/8803505
"The laboratory parameter that showed the highest correlation with the maximal cycling speed in the velodrome was maximal oxygen uptake (VO2max) expressed per unit of body mass (r = 0.93)."
The test was over 2.2 km and as expected for this distance, speed (and indirectly power) would strongly correlate to VO2 max. However, over longer durations, as Horowitz et al found, for individuals of matched VO2 max, power (and indirectly speed) correlates to percent Type I muscle fibers.
http://jp.physoc.org/content/586/1/35.long
"Gross mechanical efficiency when endurance-trained cyclists generate 300 W can vary from 18.5 to 23.5% and it appears that more than one-half of this variability is related to the percentage of type I (slow twitch) muscle fibres of the vastus lateralis muscle (Coyle et al. 1992). The efficiency with which the chemical energy of ATP hydrolysis is converted to physical work depends greatly on the velocity of sarcomere and muscle fibre shortening. Type I (slow twitch) fibres display greater mechanical efficiency when cycling at cadences of 60–120 r.p.m. Therefore, it is not surprising that elite endurance cyclists typically possess a higher percentage of type I muscle fibres, given that they are more efficient"
and
"The concepts above and in Fig. 2 suggest that and lactate threshold interact to determine how long a given rate of aerobic and anaerobic metabolism can be sustained (i.e. performance ) and efficiency then determines how much speed or power (i.e. performance velocity) can be achieved at a given amount of energy consumption. "
What allows for a high lactate threshold?
http://www.ncbi.nlm.nih.gov/pubmed/7372524
http://jap.physiology.org/content/64/6/2622.short
http://www.ncbi.nlm.nih.gov/pubmed/21552162
Please note in the later the comment about "hyperoxic training" which I was going to talk about as a possible new "scientific" method of training..
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