Body composition and nutrition in skiing

Papers on Anthropology Pub Date : 2022-12-31 DOI:10.12697/poa.2022.31.2.04

C. Raschka, S. Ruf

{"title":"Body composition and nutrition in skiing","authors":"C. Raschka, S. Ruf","doi":"10.12697/poa.2022.31.2.04","DOIUrl":null,"url":null,"abstract":"Special requirements, such as super-maximally filled glycogen stores, short regeneration times, correct meal timing or appropriate weight specifications for ski jumping are particularly useful for endurance athletes such as cross-country skiers. A deficiency could have a fatal effect on performance and possibly a negative influence on health. \nWhile cross-country skiing is clearly one of endurance sports, ski jumping and alpine skiing are considered to be fast-strength sports or technical (acrobatic) sports. \nThe proven advantages of carbohydrate loading (supercompensation), a nutritional technique for classic endurance loads, also apply to cross-country skiing. \nA drop in performance, concentration and coordination disorders as well as overheating threaten if fluid loss exceeds 2% of the total body water. Vitamin additives or sweeteners in sports drinks are inefficient. Since the higher need is actually compensated by the increased food intake with a balanced mixed diet, there is, in principle, no over-proportional need for individual vitamins in athletes. \nAs the maximum oxygen uptake is already 15% lower from 3000 m altitude, a drop in performance is clearly noticeable there. \nWhen skiing (snowshoeing, ski touring, etc.), it should be noted that an ascent of 100 meters in altitude alone requires an additional 100–150 kcal. At moderate activity, the additional energy requirement at high altitudes compared to the sea level is estimated to be 250–290 kcal per day for men and 180–200 kcal per day for women. \nTop athletes in cross-country skiing can liberate 170–210 kJ/min (40– 50 kcal/min) in a dominant anaerobic manner within 2–3 minutes. The respective energy consumption is modified by numerous personal as well as external factors (for cross-country skiing, for example, the outside temperature, the friction resistance of the snow, the technique, the height profile of the route and the headwind). \nIn cross-country skiers, the average values of body fat range between 4.8 and 12.7% in males and from 10.6 to 22.7% in females, while the average values of lean body mass (LBM) vary between 58.2 and 68.8 kg in males and from 45.6 to 48.6 kg in females. In alpine skiers, the mean values of body fat are between 9.7 and 15.8% in males and from 16.2 to 26.7% in females, and the LBM values in males range between 59.9 and 74.7 kg, in females from 42.1 to 52.8 kg. The span of body fat in male ski jumpers ranges from 8.6 to 16% with an LBM of 59.7 kg. Since 2012, a BMI of at least 21 kg/m² including suit and shoes has been a condition for ski jumpers to be able to use full-length skis (145% of body height). Otherwise, shorter skis have to be used, which reduces the wing area and is intended to reduce the jump distance as a penalty. The average values of body fat in male athletes of Nordic Combined range between 8.9 and 11.2%, and the corresponding LBM values are between 62.0 and 64.1 kg. When comparing these parameters of body composition, it must always be remembered that different methods of determining the body fat percentage have been used in corresponding studies and that possible differences do not represent a development of the skiing somatotypes over time but could also have methodological reasons.","PeriodicalId":173079,"journal":{"name":"Papers on Anthropology","volume":"62 1","pages":"0"},"PeriodicalIF":0.0000,"publicationDate":"2022-12-31","publicationTypes":"Journal Article","fieldsOfStudy":null,"isOpenAccess":false,"openAccessPdf":"","citationCount":"0","resultStr":null,"platform":"Semanticscholar","paperid":null,"PeriodicalName":"Papers on Anthropology","FirstCategoryId":"1085","ListUrlMain":"https://doi.org/10.12697/poa.2022.31.2.04","RegionNum":0,"RegionCategory":null,"ArticlePicture":[],"TitleCN":null,"AbstractTextCN":null,"PMCID":null,"EPubDate":"","PubModel":"","JCR":"","JCRName":"","Score":null,"Total":0}

引用次数: 0

Abstract

Special requirements, such as super-maximally filled glycogen stores, short regeneration times, correct meal timing or appropriate weight specifications for ski jumping are particularly useful for endurance athletes such as cross-country skiers. A deficiency could have a fatal effect on performance and possibly a negative influence on health. While cross-country skiing is clearly one of endurance sports, ski jumping and alpine skiing are considered to be fast-strength sports or technical (acrobatic) sports. The proven advantages of carbohydrate loading (supercompensation), a nutritional technique for classic endurance loads, also apply to cross-country skiing. A drop in performance, concentration and coordination disorders as well as overheating threaten if fluid loss exceeds 2% of the total body water. Vitamin additives or sweeteners in sports drinks are inefficient. Since the higher need is actually compensated by the increased food intake with a balanced mixed diet, there is, in principle, no over-proportional need for individual vitamins in athletes. As the maximum oxygen uptake is already 15% lower from 3000 m altitude, a drop in performance is clearly noticeable there. When skiing (snowshoeing, ski touring, etc.), it should be noted that an ascent of 100 meters in altitude alone requires an additional 100–150 kcal. At moderate activity, the additional energy requirement at high altitudes compared to the sea level is estimated to be 250–290 kcal per day for men and 180–200 kcal per day for women. Top athletes in cross-country skiing can liberate 170–210 kJ/min (40– 50 kcal/min) in a dominant anaerobic manner within 2–3 minutes. The respective energy consumption is modified by numerous personal as well as external factors (for cross-country skiing, for example, the outside temperature, the friction resistance of the snow, the technique, the height profile of the route and the headwind). In cross-country skiers, the average values of body fat range between 4.8 and 12.7% in males and from 10.6 to 22.7% in females, while the average values of lean body mass (LBM) vary between 58.2 and 68.8 kg in males and from 45.6 to 48.6 kg in females. In alpine skiers, the mean values of body fat are between 9.7 and 15.8% in males and from 16.2 to 26.7% in females, and the LBM values in males range between 59.9 and 74.7 kg, in females from 42.1 to 52.8 kg. The span of body fat in male ski jumpers ranges from 8.6 to 16% with an LBM of 59.7 kg. Since 2012, a BMI of at least 21 kg/m² including suit and shoes has been a condition for ski jumpers to be able to use full-length skis (145% of body height). Otherwise, shorter skis have to be used, which reduces the wing area and is intended to reduce the jump distance as a penalty. The average values of body fat in male athletes of Nordic Combined range between 8.9 and 11.2%, and the corresponding LBM values are between 62.0 and 64.1 kg. When comparing these parameters of body composition, it must always be remembered that different methods of determining the body fat percentage have been used in corresponding studies and that possible differences do not represent a development of the skiing somatotypes over time but could also have methodological reasons.

查看原文本刊更多论文

滑雪时的身体成分和营养

特殊的要求，如最大限度地填充糖原储存，短的再生时间，正确的进餐时间或适当的体重规格，对于越野滑雪等耐力运动员特别有用。缺乏叶酸会对工作表现产生致命影响，并可能对健康产生负面影响。虽然越野滑雪显然是耐力运动之一，但跳台滑雪和高山滑雪被认为是快速力量运动或技术(杂技)运动。碳水化合物负荷(超补偿)是一种经典耐力负荷的营养技术，它已被证明具有优势，也适用于越野滑雪。如果体液流失超过全身水分的2%，就会导致表现下降、注意力不集中、协调性紊乱以及身体过热。运动饮料中的维生素添加剂或甜味剂是无效的。由于较高的需求实际上是通过平衡的混合饮食中增加的食物摄入来补偿的，原则上，运动员对单个维生素的需求不会超过比例。由于在海拔3000米的地方，最大摄氧量已经降低了15%，因此性能的下降是显而易见的。在滑雪(雪鞋行走、滑雪旅行等)时，需要注意的是，仅上升100米就需要额外的100 - 150千卡。在适度的活动中，与海平面相比，高海拔地区的额外能量需求估计为男性每天250-290千卡，女性每天180-200千卡。顶尖的越野滑雪运动员可以在2-3分钟内以主要的无氧方式释放170-210 kJ/min (40 - 50 kcal/min)。各自的能量消耗受到许多个人和外部因素的影响(例如，越野滑雪，外部温度，雪的摩擦阻力，技术，路线的高度轮廓和逆风)。在越野滑雪运动员中，男性的体脂平均值在4.8 - 12.7%之间，女性在10.6 - 22.7%之间，而男性的瘦体重(LBM)平均值在58.2 - 68.8 kg之间，女性在45.6 - 48.6 kg之间。高山滑雪者体脂均值男性为9.7 ~ 15.8%，女性为16.2% ~ 26.7%，LBM值男性为59.9 ~ 74.7 kg，女性为42.1 ~ 52.8 kg。男子跳台滑雪运动员的体脂率为8.6 - 16%，体重为59.7公斤。自2012年以来，包括服装和鞋子在内的BMI至少达到21 kg/m²是跳台滑雪运动员能够使用全长滑雪板(身高的145%)的条件。否则，必须使用较短的滑雪板，这减少了机翼面积，并旨在减少跳跃距离作为惩罚。北欧组合男运动员体脂平均值在8.9 ~ 11.2%之间，相应的LBM值在62.0 ~ 64.1 kg之间。在比较这些身体组成参数时，必须始终记住，在相应的研究中使用了不同的确定体脂百分比的方法，可能的差异并不代表滑雪身体类型随时间的发展，但也可能有方法上的原因。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

求助全文

约1分钟内获得全文求助全文

来源期刊

Papers on Anthropology

自引率

0.00%

发文量