Climbing specialist
A climbing specialist or climber is a road bicycle racer who can ride especially well on highly inclined roads, such as those found among hills or mountains.
Role of climber in a race
In a sustained climb, the average speed declines, the aerodynamic advantage of drafting is diminished[1] and the setting of the group pace becomes more important. A good climber modulates his speed and chooses the best line on a climb, allowing the following riders to have an easier job. If the group maintains a high tempo, it is more difficult for a rider to attack and ride away from the group.
Another important role in climbing is that of attacker or counter-attacker. Climbing specialists use their superior abilities either to attack on climbs and thereby gap the competitors, knowing that only other climbing specialists will be able to stay with them, or simply to maintain a high pace that others cannot match. A successful escape can help the climber achieve a victory if the race has a mountain-top finish, or even in a flat finish if the climber is able to maintain his lead after the climb is over. Climbing stages, along with individual time trials, are key stages in winning long stage races.
Types of climbers
Climbers tend to have a lot of endurance and specifically developed muscles for long hard climbs. They also tend to have a slim, lightweight physique, but some can become good climbers through concerted training.
The most successful climbing specialists come in different shapes and specializations. Climbers with very small physique such as José Rujano (48 kg), Nairo Quintana (58 kg), Roberto Heras (60 kg), Alberto Contador (61 kg) and Gilberto Simoni (58 kg) thrive when the climbs reach dizzying heights and incredibly steep slopes where their low weight makes them more efficient and able to put in repeated acceleration runs. Their endurance also makes them good stage race specialists. Marco Pantani, champion of the 1998 Tour de France, was able to make attack after attack to quickly tire out his opponents.
The other type of rider or puncheur have similarly small physiques to climbing specialists but possess more power which may give them an advantage in short but steep climbs. Examples of such hills include the Mur de Huy in the Flèche Wallonne and the Manayunk Wall in the Philadelphia International Championship. Examples of such riders include Philippe Gilbert, Paolo Bettini and Danilo Di Luca, who are able to sprint their way up the shorter climbs to win a stage or a single-day race. However, their lower endurance is a disadvantage in stage races where the climbs are usually longer, albeit at lower gradients. Many climbers cannot sprint very well because their relative small size does not allow them to possess the strength of the bigger, more muscular sprinters.
The last type of climber is the breakaway specialist who can ride aggressively with many attacks and sustain their lead over ascents, descents, and flats. Famous examples include Laurent Jalabert and Richard Virenque both of whom earned their King of the Mountains jerseys in the Tour de France by day-long breakaways amassing points at every summit. Most notably, Laurent Jalabert started his career as a sprinter but later transformed himself into a different type of rider. Many riders who are primarily time-trialists have also been able to compete in everything but the steepest climbs because of their good power-to-weight ratio. Tour de France winners Miguel Indurain, Jan Ullrich and Bradley Wiggins were primarily time-trialists but were also among the best in the mountain stages during the years in which they won the Tour de France.
Climbing physics and physiology
Sports physiologists have attributed the advantage that small stature holds in cycling up steep ascents to the way in which body mass and body surface area scale according to height (see square-cube law). As a hypothetical cyclist’s height increases, the surface areas of his body increase according to the square of his height whereas the mass of his body increases according to the cube of his height. The surface area relation applies not only to the total surface area of the body, but also to the surface areas of the lungs and blood vessels, which are primary factors in determining aerobic power. Thus, an equally proportioned cyclist who has 50% more body mass (i.e. is 50% heavier) will generate only about 30% more aerobic power. On a steep climb most of the cyclist’s energy goes into lifting his own weight, so the heavier cyclist will be at a competitive disadvantage. There is, of course, a lower limit to the benefit of small stature because, among other factors, the cyclist must also lift the weight of his bicycle. The additional power is proportional to the grade or slope of the road and the speed of the rider along the slope (or along the level line). For a 5% grade, each meter of road requires lifting the body weight by 5 cm. The power (watts) is equal to change in gravitational potential energy (joules) per unit time (seconds). For a 60 kilograms (130 lb) rider, the additional power needed is about 30 watts per meter/second of road speed (about 8 watts per km/hour).
Scaling factors also account for the relative disadvantage of the small cyclist in descending, although this a result of physics, not physiology. A larger rider will be subject to a greater gravitational force because of their greater body mass. Additionally, as mentioned, the frontal area that creates aerodynamic drag increases only quadratically with the rider's size, and hence the larger rider would be expected to accelerate faster or attain a greater terminal velocity.
Although these factors might seem to cancel each other out, the climber still has an advantage on a course with long ascents and long descents: adding several miles per hour on a slow, time-consuming climb is much more valuable than the same increase on a fast and brief descent. Any rider, of course, can improve his climbing speed by increasing his aerobic power and reducing his body weight and can increase his descending speed through better bike handling and the willingness to accept an increased risk of crashing. One of the few elite riders to use descending skill as a competitive advantage is Paolo Savoldelli, nicknamed "the falcon".
For a more quantitative treatment of climbing physics and physiology, see Swain, DP, Cycling: Uphill and Downhill .
Bicycle technology
Recent advances in bicycle components give the rider a wider range of gearing choices, allowing climbing specialists to use lower gears to ascend optimally while still having the higher gears necessary to keep up with other riders in the flatter sections. Legendary climbers of the past such as Lucien Van Impe had to ride out of the saddle pushing high gears for hours at a time; climbers today are better able to match their gearing to the challenge and climb at a more reasonable cadence. The current UCI minimum limit for the mass of bicycles is 6.8 kilograms (15 lb). Although many bike manufacturers can create bikes much lighter than this, the UCI deems this weight fair in the spirit of preserving the 'primacy of man' over his equipment.[2]
King of the Mountains in stage races
Most stage races have a special category for the best climber, usually by awarding points at the important summits of the race. In the Tour de France for example, the best climber, or "King of the Mountains", is awarded a polka dot jersey (French: maillot à pois rouges). In the Giro d'Italia instead, the best climber is awarded a blue jersey (Italian: maglia azzurra).
Examples of Climbers
See also
References
- ↑ Swain, David P (1998). "CYCLING UPHILL AND DOWNHILL". Sportscience. Retrieved 26 August 2014.
- ↑ http://oldsite.uci.ch/english/news/news_pre2000/comm_19990611.htm
Further reading
- Owen Mulholland, John Wilcockson. Uphill Battle: Cycling's Great Climbers. VeloPress, 2003.
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