Usuari:Papapep/Escalada en bloc

De la Viquipèdia, l'enciclopèdia lliure

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L'escalada en bloc (o «bouldering») és una forma d'escalada sense cordes ni aparells d'escalada. Tot i que es pot fer sense cap mena d'equipament, la majoria d'escaladors utilitzen peus de gat per assegurar les passes, pols de magnesi per mantenir les mans seques i matalassos per evitar fer-se mal en cas de caiguda. A diferència de a l'escalada en solitari integral, que també s'efectua sense cordes, les vies d'escalada en bloc no solen tenir més de 6 metres d'alçada. Els Rocòdroms (parets artificials preparades per escalar-les) permeten que els escaladors de bloc es puguin entrenar en interior a les zones on no hi ha roques naturals adients. Hi ha competicions d'escalada en bloc tant d'interior com d'exterior.[1]

L'esport va començar com una forma d'entrenament d'escalada i montanyisme. Això permetia als escaladors practicar moviments concrets a una distància segura del terra. A més, l'esport[2] serveix per millorar la resistència i la força als dits. Durant el segle 20, l'escalada en bloc va evolucionar fins a convertir-se en un esport per si mateix. S'assigna una qualificació a les vies en funció de la seva dificultat. Hi ha molts tipus de sistemes de qualificació, però les vies modernes solen utilitzar l'escala V o l'escala Fontainebleau.

La seva creixent popularitat ha provocat preocupació a nivell mediambiental, per l'erosió que pot causar tant l'acte d'escalar com el camí que han de seguir els escaladors fins arribar als llocs d'escalada. Aquest fet ha causat que alguns propietaris de terres hagin restringit l'accés o prohibit l'escalada directament.

Overview[modifica]

Bouldering is a form of rock climbing which takes place on boulders and other small rock formations, usually measuring less than 20 peus (6.1 m) from ground to top. Unlike top rope climbing and lead climbing, no ropes are used to protect or aid the climber. Bouldering routes or "problems" require the climber to reach the top of a boulder, usually from a specified start position. Some boulder problems, known as "traverses," require the climber to climb horizontally from one position to another.[3]:p. 3

The characteristics of boulder problems depend largely on the type of rock being climbed. Granite, for example, often features long cracks and slabs. Sandstone rocks are known for their steep overhangs and frequent horizontal breaks. Other common bouldering rocks include limestone and volcanic rock.[4]:p. 21–22

There are many prominent bouldering areas throughout the United States, including Hueco Tanks in Texas, Mount Evans in Colorado, and The Buttermilks in Bishop, California. Squamish, British Columbia is one of the most popular bouldering areas in Canada.[5]:p. 80–81 Europe also hosts a number of bouldering sites, such as Fontainebleau in France, Albarracín in Spain, and various mountains throughout Switzerland.[6]

Indoor bouldering[modifica]

Article principal: Indoor climbing

Artificial climbing walls are used to simulate boulder problems in an indoor environment, usually at climbing gyms. These walls are constructed with wooden panels, polymer cement panels, concrete shells, or precast molds of actual rock walls.[7]:p. 49–51 Holds, usually made of plastic, are then bolted onto the wall to create problems.[4]:p. 18 The walls often feature steep overhanging surfaces, forcing the climber to employ highly technical movements while supporting much of their weight with their upper body strength.[8]:p. 133

A competitor at the 2012 Boulder World Cup

Climbing gyms often feature multiple problems within the same section of wall. In the US the most common method Routesetters use to designate the intended route for a particular problem is by placing colored tape next to each hold—for example, holds with red tape would indicate one bouldering problem, while green tape would be used to set off a different problem in the same area.[8]:p. 48 Across much of the rest of the world problems and grades are usually designated by using a set color of plastic hold to indicate a particular problem. For example, green may be v0-v1, blue may be v2-v3 and so on. Setting via color is advantageous for a few reasons, most notably due to it being more obvious where the holds for a problem are. This contrasts with taped problems in that tape can often be accidentally kicked off - especially on footholds.

Competitions[modifica]

Bouldering competitions occur in both indoor and outdoor settings.[4]:p. 18 The International Federation of Sport Climbing (IFSC) employs an indoor format that breaks the competition into three rounds: qualifications, semi-finals, and finals. The rounds feature different sets of four or five boulder problems, and each competitor has a fixed amount of time to attempt each problem. At the end of each round, competitors are ranked by the number of completed problems, with ties settled by the total number of attempts taken to solve the problems.[9]

There are several other formats used for bouldering competitions. Some competitions give climbers a fixed number of attempts at each problem with a timed rest period in between each attempt, unlike the IFSC format, in which competitors can use their allotted time however they choose.[10]:p. 175 In an open-format competition, all climbers compete simultaneously, and are given a fixed amount of time to complete as many problems as possible. More points are awarded for more difficult problems, while points are deducted for multiple attempts on the same problem.[11]:p. 201

In 2012, the IFSC submitted a proposal to the International Olympic Committee (IOC) to include lead climbing in the 2020 Summer Olympics. The proposal was later revised to an "overall" competition, which would feature bouldering, lead climbing, and speed climbing.[12] In May 2013, the IOC announced that climbing would not be added to the 2020 Olympic program.[13]

History[modifica]

Rock climbing first emerged as a sport in the mid-1800s. Early records describe climbers engaging in what is now referred to as bouldering, not as a separate discipline, but as a form of training for larger ascents. In the early 20th century, the Fontainebleau area of France established itself as a prominent climbing area, where some of the first dedicated bleausards (or "boulderers") emerged. The specialized rock climbing shoe was invented by one such athlete, Pierre Allain.[14]:Ch. 1

In the 1960s, the sport was pushed forward by American mathematician John Gill, who contributed several important innovations. Gill's previous athletic pursuit was gymnastics, a sport which had an established scale of difficulty for particular movements and body positions. He applied this idea to bouldering, which shifted the focus from reaching a summit to navigating a specific sequence of holds.[14]:Ch. 1 Gill developed a closed-ended rating system: B1 problems were as difficult as the most challenging roped routes of the time, B2 problems were more difficult, and B3 problems were those that had only been completed once.[15]:p. 64–65

Gill introduced chalk as a method of keeping the climber's hands dry. He also emphasized the importance of strength training to complement technical skill.[16] Neither of these practices had been popular among climbers, but as Gill's ability level and influence grew, his ideas became the norm.[14]:Ch. 1

Two important training tools emerged in the 1980s: Bouldering mats and artificial climbing walls. The former, also referred to as "crash pads", prevented injuries from falling, and enabled boulderers to climb in areas that would have been too dangerous to attempt otherwise. Indoor climbing walls helped spread the sport to areas without outdoor climbing, and allowed serious climbers to train year-round regardless of weather conditions.[14]:Ch. 1

As the sport grew in popularity, new bouldering areas were developed throughout Europe and the United States, and more athletes began participating in bouldering competitions. The visibility of the sport greatly increased in the early 2000s, as YouTube videos and climbing blogs helped boulderers around the world to quickly learn techniques, find hard problems, and announce newly completed projects.[14]:Ch. 1

In early 2010, two American climbers claimed first ascents on boulder problems that have come to be regarded as the most difficult in the world: The Game near Boulder, Colorado, established by Daniel Woods;[17] and Lucid Dreaming near Bishop, California, established by Paul Robinson.[18] The following year, fellow American Carlo Traversi claimed the second ascent of The Game[19] and in January 2014, American Daniel Woods completed the second ascent of "Lucid Dreaming."[20] In 2011, Czech climber Adam Ondra claimed the second ascent of Gioia, originally established three years earlier by Italian boulderer Christian Core, and suggested that it was among the world's most challenging boulder problems.[21]

Equipment[modifica]

Article principal: Rock-climbing equipment

Unlike other climbing sports, bouldering can be performed safely and effectively with very little equipment, an aspect which makes the discipline highly appealing to many climbers.[14]:Ch. 2 Bouldering pioneer John Sherman asserted that "The only gear really needed to go bouldering is boulders".[22]:p. 1 Others suggest the use of climbing shoes and a chalkbag as the bare minimum, while more experienced boulderers typically bring multiple pairs of shoes, chalk, brushes, crash pads, and a skincare kit.[14]:Ch. 2

A modern climbing shoe manufactured by Quechua

Of the aforementioned equipment, climbing shoes have the most direct impact on performance. Besides protecting the climber's feet from rough surfaces, climbing shoes are designed to help the climber secure and maintain footholds. Climbing shoes typically fit much tighter than other athletic footwear, and often curl the toes downwards to enable precise footwork. They are manufactured in a variety of different styles in order to perform well in different situations: High-top shoes, for example, provide better protection for the ankle, while low-top shoes provide greater flexibility and freedom of movement. Stiffer shoes excel at securing small edges, whereas softer shoes provide greater sensitivity. The front of the shoe, called the "toe box", can be asymmetric, which performs well on overhanging rocks, or symmetric, which is better suited for vertical problems and slabs.[14]:Ch. 2, [22]:p. 1, [23]:p. 116

Most boulderers use gymnastics chalk on their hands to absorb sweat. It is stored in a small chalkbag which can be tied around the waist, allowing the climber to reapply chalk during the climb.[23]:p. 119 Brushes are used to remove excess chalk and other debris from boulders in between climbs; they are often attached to the end of a stick, pipe, or other straight object in order to reach higher holds.[22]:p. 6 Crash pads, also referred to as bouldering mats, are foam cushions placed on the ground to protect climbers from falls.[22]:p. 6–7

Safety[modifica]

Boulder problems are generally shorter than 20 peus (6.1 m) from ground to top.[3]:p. 3 This makes the sport significantly safer than free solo climbing, which is also performed without ropes, but with no upper limit on the height of the climb.[24]:p. 10–11 However, minor injuries are common in bouldering, particularly sprained ankles and wrists. Two factors contribute to the frequency of injuries in bouldering: first, boulder problems typically feature more difficult moves than other climbing disciplines, making falls more common. Second, without ropes to arrest the climber's descent, every fall will cause the climber to hit the ground.[15]

To prevent injuries, boulderers position crash pads near the boulder to provide a softer landing, as well as one or more spotters to help redirect the climber towards the pads.[3]:p. 3 Upon landing, boulderers employ falling techniques similar to those used in gymnastics: spreading the impact across the entire body to avoid bone fractures, and positioning limbs to allow joints to move freely throughout the impact.[25]

Technique[modifica]

As with other forms of climbing, bouldering technique is largely centered around proper footwork. Leg muscles are significantly stronger than arm muscles; as such, proficient boulderers use their arms primarily to maintain balance and body positioning, relying on their legs to push them up the boulder.[22]:p. 52 Boulderers also keep their arms straight whenever possible, allowing their bones to support their body weight rather than their muscles.[26]:p. 60–61

Bouldering movements are described as either "static" or "dynamic". Static movements are those that are performed slowly, with the climber's position controlled by maintaining contact on the boulder with the other three limbs. Dynamic movements use the climber's momentum to reach holds that would be difficult or impossible to secure statically, with an increased risk of falling if the movement is not performed accurately.[27]:p. 70

Grading[modifica]

A climber completing an indoor V3 problem
Article principal: Grade (bouldering)

Bouldering problems are assigned numerical difficulty ratings by routesetters and climbers. The two most widely used rating systems are the V-scale and the Fontainebleau system.[28] :p. 234

The V-scale, which originated in the United States, is an open-ended rating system with higher numbers indicating a higher degree of difficulty. The V1 rating indicates that a problem can be completed by a novice climber in good physical condition after several attempts.[15]:p. 66 The scale begins at V0, and as of 2013, the highest V rating that has been assigned to a bouldering problem is V16.[5]:p. 8, [29]:p. 12 Some climbing gyms also use a VB grade to indicate beginner problems.[30]

The Fontainebleau scale follows a similar system, with each numerical grade divided into three ratings with the letters a, b, and c. For example, Fontainebleau 7A roughly corresponds with V6, while Fontainebleau 7C+ is equivalent to V10.[31]:p. 3 In both systems, grades are further differentiated by appending "+" to indicate a small increase in difficulty. Despite this level of specificity, ratings of individual problems are often controversial, as ability level is not the only factor that affects how difficult a problem will be for a particular climber. Height, arm length, flexibility, and other body characteristics can also be relevant.[29]:p. 11–12

Environmental impact[modifica]

Bouldering can damage vegetation that grows on rocks, such as mosses and lichens. This can occur as a result of the climber intentionally cleaning the boulder, or unintentionally from repeated use of handholds and footholds. Vegetation on the ground surrounding the boulder can also be damaged from overuse, particularly by climbers laying down crash pads. Soil erosion can occur when boulderers trample vegetation while hiking off of established trails, or when they unearth small rocks near the boulder in an effort to make the landing zone safer.[3]:p. 4–6 Other environmental concerns include littering, improperly disposed feces, and graffiti. These issues have caused some land managers to prohibit bouldering, as was the case in Tea Garden, a popular bouldering area in Rocklands, South Africa.[32]

References[modifica]

A Wikimedia Commons hi ha contingut multimèdia relatiu a: Papapep/Escalada en bloc
  1. See The Boulder: A Philosophy for Bouldering (Stone Country Press, by Francis Sanzaro, for a more on bouldering movement, and its relation to other sports.
  2. Hill, Pete. The Complete Guide to Climbing and Mountaineering. Cincinnati, OH 45236: David&Charles, 2008, p. 94. ISBN 978-0-7153-2842-2. 
  3. 3,0 3,1 3,2 3,3 «Bouldering: Understanding and Managing Climbing on Small Rock Formations» (PDF). The Access Fund, 2006. [Consulta: 4 agost 2013].
  4. 4,0 4,1 4,2 Lourens, Tony. Guide to Climbing. Stackpole Books, 2005. ISBN 9780811701525. 
  5. 5,0 5,1 Robinson, Victoria. Rock Climbing. ABC-CLIO, 2013. ISBN 9780313378621. 
  6. «Rock climbing in Europe». Climb Europe, 2013. [Consulta: 10 agost 2013].
  7. Stiehl, Jim and Ramsey, Tim B.. Climbing Walls. Human Kinetics, 2005. ISBN 9780736048316. 
  8. 8,0 8,1 Burbach, Matt. Gym Climbing. The Mountaineers Books, 2005. ISBN 9781594854804. 
  9. «IFSC Rules 2013» (PDF). International Federation of Sport Climbing, March 2013. [Consulta: 25 juny 2013].
  10. Hague, Dan and Hunter, Douglas. Redpoint. Stackpole Books, 2011. ISBN 9780811745079. 
  11. Schmid, Stephen E.. Climbing - Philosophy for Everyone. John Wiley & Sons, 2011. ISBN 9781444341461. 
  12. Dougald MacDonald «New Olympic Plan: Climbers Must Compete in Bouldering, Lead, and Speed». Climbing.com, 20-03-2013 [Consulta: 9 juliol 2013].
  13. «Climbing Out of the Running for Olympic Games». , 29-05-2013 [Consulta: 9 juliol 2013].
  14. 14,0 14,1 14,2 14,3 14,4 14,5 14,6 14,7 Beal, Peter. Bouldering: Movement, Tactics, and Problem Solving. The Mountaineers Books, 2011. ISBN 9781594855016. 
  15. 15,0 15,1 15,2 Sherman, John. Sherman Exposed. The Mountaineers Books, 2001. ISBN 9781594853968. 
  16. For more on Gill's bouldering philosophy, see The Boulder: A Philosophy for Bouldering (Stone Country Press, by Francis Sanzaro (Stone Country press, 2013).
  17. «Daniel Woods plays The Game Fb8C+». PlanetMountain, 12-02-2010 [Consulta: 11 agost 2013].
  18. «Lucid Dreaming, new extreme boulder problem at the Buttermilks, Bishop». PlanetMountain, 31-03-2010 [Consulta: 11 agost 2013].
  19. «Carlo Traversi Sends The Game (V15/16)». DPM Climbing, 12-03-2011 [Consulta: 11 agost 2013].
  20. «Daniel Woods Does Repeat Lucid Dreaming». Climbing Narcissist, 28-01-2014. [Consulta: 30 gener 2014].
  21. «Adam Ondra repeats Gioia 8c+ at Varezze». AdamOndra.com, 7 December 2011. [Consulta: 11 agost 2013].
  22. 22,0 22,1 22,2 22,3 22,4 Sherman, John. Better Bouldering. 2nd. Globe Pequot, 2011. ISBN 9780762775583. 
  23. 23,0 23,1 Kidd, Timothy W. and Hazelrigs, Jennifer. Rock Climbing. Human Kinetics, 2009. ISBN 9781450409001. 
  24. Hattingh, Garth. Rock and Wall Climbing. Stackpole Books, 2000. ISBN 9780811729161. 
  25. Thomson, Jeff and Bourdon, Marc. «Bouldering Safety». Mountain Equipment Co-op. [Consulta: 4 agost 2013].
  26. Long, John. Sport Climbing. 3rd. Globe Pequot, 1997. ISBN 9781575400785. 
  27. Humi, Michelle. Coaching Climbing. Globe Pequot, 2002. ISBN 9780762725342. 
  28. Hill, Pete. The Complete Guide to Climbing and Mountaineering. David & Charles, 2008. ISBN 9780715328422. 
  29. 29,0 29,1 Horst, Eric J.. Learning to Climb Indoors. 2nd. Globe Pequot, 2012. ISBN 9780762780051. 
  30. «Climbing Grades». Spadout, 2012. [Consulta: 4 agost 2013].
  31. Horan, Bob. Falcon Guides Bouldering Colorado. Globe Pequot, 2008. ISBN 9780762736386. 
  32. «Rocklands bouldering at risk». PlanetMountain, 31-07-2013 [Consulta: 4 agost 2013].

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