Thursday – 102810 – Chipper
Dynamic running drills
100 Push-ups (Hands leave floor at the bottom of the push-up)
75 Box-jumps (24/20)
Reps are not to be fractured in any way, i.e. athletes must finish all push-ups before moving on to box-jumps.
Post thoughts and times to “comments”.
Metabolic Conditioning, or “Cardio”:
*Cardiovascular/respiratory endurance – The ability of body systems to gather, process, and deliver oxygen.
*Stamina – The ability of body systems to process, deliver, store, and utilize energy.
Biking, running, swimming, rowing, speed skating, and cross-country skiing are collectively known as “metabolic conditioning.” In the common vernacular they are referred to as “cardio.” CrossFit’s third ﬁtness standard, the one that deals with metabolic pathways, contains the seeds of the CrossFit “cardio” prescription. To understand the CrossFit approach to “cardio” we need ﬁrst to brieﬂy cover the nature and interaction of the three major pathways. Of the three metabolic pathways the ﬁrst two, the phosphagen and the glycolytic, are “anaerobic” and the third, the oxidative, is “aerobic.” We needn’t belabor the biochemical signiﬁcance of aerobic and anaerobic systems; sufﬁce it to say that the nature and interaction of anaerobic exercise and aerobic exercise is vital to understanding conditioning. Just remember that efforts at moderate to high power and lasting less than several minutes are anaerobic and efforts at low power and lasting in excess of several minutes are aerobic. As an example the sprints at 100, 200, 400, and 800 meters are largely anaerobic and events like 1,500 meters, the mile, 2,000 meters, and 3,000 meters are largely aerobic. Aerobic training beneﬁts cardiovascular function and decreases body fat – all good. Aerobic conditioning allows us to engage in low power extended efforts efﬁciently (cardio/respiratory endurance and stamina). This is critical to many sports. Athletes engaged in sports or training where a preponderance of the training load is spent in aerobic efforts witness decreases in muscle mass, strength, speed, and power. It is not uncommon to ﬁnd marathoners with a vertical leap of only several inches!
Furthermore, aerobic activity has a pronounced tendency to decrease anaerobic capacity. This does not bode well for most athletes or those interested in elite ﬁtness. Anaerobic activity also beneﬁts cardiovascular function and decreases body fat! In fact, anaerobic exercise is superior to aerobic exercise for fat loss! (http://www.cbass.com/FATBURN.HTM) Anaerobic activity is, however, unique in its capacity to dramatically improve power, speed, strength, and muscle mass. Anaerobic conditioning allows us to exert tremendous forces over brief time intervals. One aspect of anaerobic conditioning that bears great consideration is that anaerobic conditioning will not adversely affect aerobic capacity. In fact, properly structured, anaerobic activity can be used to develop a very high level of aerobic ﬁtness without the muscle wasting consistent with high volumes of aerobic exercise. The method by which we use anaerobic efforts to develop aerobic conditioning is “interval training” (think: five rounds for time etc.). Basketball, football, gymnastics, boxing, track events under one mile, soccer, swimming events under 400 meters, volleyball, wrestling, and weightlifting are all sports that require the vast majority of training time spent in anaerobic activity. Long distance and ultra endurance running, cross country skiing, and 1500+ meter swimming are all sports that require aerobic training at levels that produce results unacceptable to other athletes or the individual concerned with total conditioning and optimal health. I strongly recommend that you attend a track meet of nationally or internationally competitive athletes. Pay close attention to the physiques of the athletes competing at 100, 200, 400, 800 meters, and the milers. The difference you’re sure to notice is a direct result of training at those distances.