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"... the most comprehensive adventure sport physiology book I am aware of; therefore, I recommend it wholeheartedly." The Sport and Exercise Scientist, March 2009 This book provides students and professionals with a well-written, accessible introduction to the science underlying a variety of adventure sports. Written specifically for this increasingly popular field of study, the text has been divided into two parts: the first provides the foundations for adventure physiology, the second the specific physiological and environmental demands of a range of adventure sports including kayaking,…mehr
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"... the most comprehensive adventure sport physiology book I am aware of; therefore, I recommend it wholeheartedly." The Sport and Exercise Scientist, March 2009 This book provides students and professionals with a well-written, accessible introduction to the science underlying a variety of adventure sports. Written specifically for this increasingly popular field of study, the text has been divided into two parts: the first provides the foundations for adventure physiology, the second the specific physiological and environmental demands of a range of adventure sports including kayaking, canoeing, sailing, windsurfing, climbing, mountaineering and skiing. Written by two adventure sports performers with extensive teaching and coaching experience, this book will prove invaluable to students taking courses in adventure and outdoor education and professional instructors involved in such activities. In addition, students of sport and exercise science and physical education will find this an excellent introduction to the physiological response to exercise. * Clearly explains the basic physiological principles and applies them to a variety of land and water-based sports. * In full colour throughout, the book includes numerous illustrations, together with key points and chapter summaries to reinforce learning. * Contains original pieces from elite and high-level athletes describing the physiological demands of their particular sport in a real-world context. These include London sports personality of the year Anna Hemmings, respected climbers Dave Macleod and Neil Gresham, and Olympic medallists Tim Brabants and Ben Ainslie. * Dedicated web site contains an original sample training programme and a set of adventure sport specific exercises.
Produktdetails
- Produktdetails
- Verlag: John Wiley & Sons
- Seitenzahl: 456
- Erscheinungstermin: 20. November 2008
- Englisch
- ISBN-13: 9780470319130
- Artikelnr.: 37291567
- Verlag: John Wiley & Sons
- Seitenzahl: 456
- Erscheinungstermin: 20. November 2008
- Englisch
- ISBN-13: 9780470319130
- Artikelnr.: 37291567
Dr Nicholas Draper, Principal Lecturer, School of Physical Education, University of Chichester, Chichester, UK Nick has considerable teaching experience in both the UK and the US. He is a qualified coach in kayaking and mountaineering and for three years was the performance planner for the British judo team. Nick's research interests include coaching and sports science support as they relate to the Adventure and Physical Education Domains. Mr Christopher Hodgson, Senior Lecturer, School of Physical Education, University of Chichester, Chichester, UK Chris is a fully qualified member of the International Association of Ski Instructors, a British Canoe Union Level V Coach and has taught and led adventurous activity programmes in North America, Europe, Africa and India. Chris' research interests include human performance during environmentally induced stress, the enhancement of adventure sports performance and the experience of adventure activities.
Acknowledgements xi Preface xiii Part I: The Foundations of Adventure Sport Physiology 1 1. A historical perspective: the context of adventure physiology 3 1.1 The earliest physiologists 3 1.2 The founders of exercise physiology 11 1.3 The development of environmental physiology 13 1.4 The origins of adventure physiology 15 1.5 The development of adventure sports 18 2. Nutrition for health and performance 31 2.1 Introduction to nutrition 31 2.2 Carbohydrates 39 2.3 Fats 43 2.4 Proteins 49 2.5 Vitamins 54 2.6 Minerals 58 2.7 Water 61 2.8 Digestion 62 2.9 Components of a healthy balanced diet 64 2.10 Summary and study questions 68 3. The structure and functioning of the human body 71 3.1 The cellular basis for life 71 3.2 Skeletal system 80 3.3 Nervous system 84 3.4 Endocrine system 96 3.5 Summary and study questions 102 4. Fundamental systems for adventure sports 105 4.1 Muscular system 105 4.2 Respiratory system 121 4.3 Cardiovascular system 133 4.4 Energy systems 145 4.5 Summary and study questions 151 5. Training fundamentals 155 5.1 Introduction to training methodology 155 5.2 Developing and designing training programmes 176 5.3 Summary and study questions 194 Part II: The Physiological Demands of Adventure Sports 197 6. Power and power endurance: the explosive activities 199 6.1 Introduction 199 6.2 Muscle fibre types 200 6.3 The phosphagen system 204 6.4 Physiological response to power and power endurance activities and fatigue 211 6.5 Physiological adaptations to power training 218 6.6 Nutritional ergogenic aids to power performance 219 6.7 Summary and study questions 223 7. Anaerobic endurance: the lactate tolerance and management activities 227 7.1 Introduction 227 7.2 Glycolysis 228 7.3 Physiological response to anaerobic endurance activities and fatigue 239 7.4 Physiological adaptations to anaerobic endurance training 245 7.5 Nutritional ergogenic aids to anaerobic performance 246 7.6 Sport-specific physiology 248 7.7 Summary and study questions 257 8. Intermittent adventure activities 261 8.1 Introduction 261 8.2 Physiology of intermittent activities 262 8.3 Training and recovery in intermittent activity 267 8.4 Nutrition and ergogenic aids for intermittent activities 268 8.5 Water immersion 271 8.6 The physiology of water-based adventure sports 282 8.7 Summary and study questions 295 9. Aerobic endurance part 1: high-intensity activities 299 9.1 Introduction 299 9.2 Aerobic-anaerobic transition and lactate threshold 300 9.3 Physiological response to high-intensity endurance activities 307 9.4 Physiological adaptations to training 318 9.5 Nutritional ergogenic aids to aerobic performance 320 9.6 Physiological challenge of thermal stress 323 9.7 The physiology of land-based adventure sports 333 9.8 The physiology of water-based adventure sports 336 9.9 Summary and study questions 346 10. Aerobic endurance part 2: lower-intensity activities 351 10.1 Introduction 351 10.2 Aerobic system 352 10.3 Physiological response to lower intensity endurance activities 373 10.4 Physiological adaptations to training 376 10.5 Nutritional ergogenic aids to aerobic performance 377 10.6 The effects of hyperbaric and hypobaric condition on performance 382 10.7 The physiology of mountaineering 396 10.8 Summary and study questions 406 References 411 Index 429
Acknowledgements. Preface. PART I: THE FOUNDATIONS OF ADVENTURE SPORT
PHYSIOLOGY. 1. A Historical Perspective: The Context of Adventure
Physiology. 1.1 The earliest physiologists. 1.2 The founders of exercise
physiology. 1.3 The development of environmental physiology. 1.4 The
origins of adventure physiology. 1.5 The development of adventure sports.
2. Nutrition for Health and Performance. 2.1 Introduction to nutrition. 2.2
Carbohydrates. 2.3 Fats. 2.4 Proteins. 2.5 Vitamins. 2.6 Minerals. 2.7
Water. 3. The Structure and Functioning of the Human Body. 3.1 The cellular
basis for life. 3.2 Skeletal system. 3.3 Nervous system. 3.4 Endocrine
system. 3.5 Summary and study questions. 4. Fundamental Systems for
Adventure Sports. 4.1 Muscular system. 4.2 Respiratory system. 4.3
Cardiovascular system. 4.4 Energy systems. 4.5 Summary and study questions.
5. Training Fundamentals. 5.1 Introduction to training methodology. 5.2
Developing and designing training programmes. 5.3 Summary and study
questions. PART II: THE PHYSIOLOGICAL DEMANDS OF ADVENTURE SPORTS. 6. Power
and Power Endurance: The Explosive Activities. 6.1 Introduction. 6.2 Muscle
fibre types. 6.3 The phosphagen system. 6.4 Physiological response to power
and power endurance activities and fatigue. 6.5 Physiological adaptations
to power training. 6.6 Nutritional ergogenic aids to power performance. 6.7
Summary and study questions. 7. Anaerobic Endurance: The Lactate Tolerance
and Management Activities. 7.1 Introduction. 7.2 Glycolysis. 7.3
Physiological response to anaerobic endurance activities and fatigue. 7.4
Physiological adaptations to anaerobic endurance training. 7.5 Nutritional
ergogenic aids to anaerobic performance. 7.6 Sport-specific physiology. 7.7
Summary and study questions. 8. The Intermittent Adventure Activities. 8.1
Introduction. 8.2 Physiology of intermittent activities. 8.3 Training and
recovery in intermittent activity. 8.4 Nutrition and ergogenic aids for
intermittent activities. 8.5 Water immersion. 8.6 The physiology of
water-based adventure sports. 8.7 Summary and study questions. 9. Aerobic
Endurance I: The High-Intensity Activities. 9.1 Introduction. 9.2
Aerobic-anaerobic transition and lactate threshold. 9.3 Physiological
response to high-intensity endurance activities. 9.4 Physiological
adaptations to training. 9.5 Nutritional ergogenic aids to aerobic
performance. 9.6 Physiological challenge of thermal stress. 9.7 The
physiology of land-based adventure sports. 9.8 The physiology of
water-based adventure sports. 9.9 Summary and study questions. 10. Aerobic
Activities II: Lower Intensity Endurance Activities. 10.1 Introduction.
10.2 Aerobic system. 10.3 Physiological response to lower intensity
endurance activities. 10.4 Physiological adaptations to training. 10.5
Nutritional ergogenic aids to aerobic performance. 10.6 The effects of
hyperbaric and hypobaric condition on performance. 10.7 The physiology of
mountaineering. 10.8 Summary and study questions. References. Index.
PHYSIOLOGY. 1. A Historical Perspective: The Context of Adventure
Physiology. 1.1 The earliest physiologists. 1.2 The founders of exercise
physiology. 1.3 The development of environmental physiology. 1.4 The
origins of adventure physiology. 1.5 The development of adventure sports.
2. Nutrition for Health and Performance. 2.1 Introduction to nutrition. 2.2
Carbohydrates. 2.3 Fats. 2.4 Proteins. 2.5 Vitamins. 2.6 Minerals. 2.7
Water. 3. The Structure and Functioning of the Human Body. 3.1 The cellular
basis for life. 3.2 Skeletal system. 3.3 Nervous system. 3.4 Endocrine
system. 3.5 Summary and study questions. 4. Fundamental Systems for
Adventure Sports. 4.1 Muscular system. 4.2 Respiratory system. 4.3
Cardiovascular system. 4.4 Energy systems. 4.5 Summary and study questions.
5. Training Fundamentals. 5.1 Introduction to training methodology. 5.2
Developing and designing training programmes. 5.3 Summary and study
questions. PART II: THE PHYSIOLOGICAL DEMANDS OF ADVENTURE SPORTS. 6. Power
and Power Endurance: The Explosive Activities. 6.1 Introduction. 6.2 Muscle
fibre types. 6.3 The phosphagen system. 6.4 Physiological response to power
and power endurance activities and fatigue. 6.5 Physiological adaptations
to power training. 6.6 Nutritional ergogenic aids to power performance. 6.7
Summary and study questions. 7. Anaerobic Endurance: The Lactate Tolerance
and Management Activities. 7.1 Introduction. 7.2 Glycolysis. 7.3
Physiological response to anaerobic endurance activities and fatigue. 7.4
Physiological adaptations to anaerobic endurance training. 7.5 Nutritional
ergogenic aids to anaerobic performance. 7.6 Sport-specific physiology. 7.7
Summary and study questions. 8. The Intermittent Adventure Activities. 8.1
Introduction. 8.2 Physiology of intermittent activities. 8.3 Training and
recovery in intermittent activity. 8.4 Nutrition and ergogenic aids for
intermittent activities. 8.5 Water immersion. 8.6 The physiology of
water-based adventure sports. 8.7 Summary and study questions. 9. Aerobic
Endurance I: The High-Intensity Activities. 9.1 Introduction. 9.2
Aerobic-anaerobic transition and lactate threshold. 9.3 Physiological
response to high-intensity endurance activities. 9.4 Physiological
adaptations to training. 9.5 Nutritional ergogenic aids to aerobic
performance. 9.6 Physiological challenge of thermal stress. 9.7 The
physiology of land-based adventure sports. 9.8 The physiology of
water-based adventure sports. 9.9 Summary and study questions. 10. Aerobic
Activities II: Lower Intensity Endurance Activities. 10.1 Introduction.
10.2 Aerobic system. 10.3 Physiological response to lower intensity
endurance activities. 10.4 Physiological adaptations to training. 10.5
Nutritional ergogenic aids to aerobic performance. 10.6 The effects of
hyperbaric and hypobaric condition on performance. 10.7 The physiology of
mountaineering. 10.8 Summary and study questions. References. Index.
Acknowledgements xi Preface xiii Part I: The Foundations of Adventure Sport Physiology 1 1. A historical perspective: the context of adventure physiology 3 1.1 The earliest physiologists 3 1.2 The founders of exercise physiology 11 1.3 The development of environmental physiology 13 1.4 The origins of adventure physiology 15 1.5 The development of adventure sports 18 2. Nutrition for health and performance 31 2.1 Introduction to nutrition 31 2.2 Carbohydrates 39 2.3 Fats 43 2.4 Proteins 49 2.5 Vitamins 54 2.6 Minerals 58 2.7 Water 61 2.8 Digestion 62 2.9 Components of a healthy balanced diet 64 2.10 Summary and study questions 68 3. The structure and functioning of the human body 71 3.1 The cellular basis for life 71 3.2 Skeletal system 80 3.3 Nervous system 84 3.4 Endocrine system 96 3.5 Summary and study questions 102 4. Fundamental systems for adventure sports 105 4.1 Muscular system 105 4.2 Respiratory system 121 4.3 Cardiovascular system 133 4.4 Energy systems 145 4.5 Summary and study questions 151 5. Training fundamentals 155 5.1 Introduction to training methodology 155 5.2 Developing and designing training programmes 176 5.3 Summary and study questions 194 Part II: The Physiological Demands of Adventure Sports 197 6. Power and power endurance: the explosive activities 199 6.1 Introduction 199 6.2 Muscle fibre types 200 6.3 The phosphagen system 204 6.4 Physiological response to power and power endurance activities and fatigue 211 6.5 Physiological adaptations to power training 218 6.6 Nutritional ergogenic aids to power performance 219 6.7 Summary and study questions 223 7. Anaerobic endurance: the lactate tolerance and management activities 227 7.1 Introduction 227 7.2 Glycolysis 228 7.3 Physiological response to anaerobic endurance activities and fatigue 239 7.4 Physiological adaptations to anaerobic endurance training 245 7.5 Nutritional ergogenic aids to anaerobic performance 246 7.6 Sport-specific physiology 248 7.7 Summary and study questions 257 8. Intermittent adventure activities 261 8.1 Introduction 261 8.2 Physiology of intermittent activities 262 8.3 Training and recovery in intermittent activity 267 8.4 Nutrition and ergogenic aids for intermittent activities 268 8.5 Water immersion 271 8.6 The physiology of water-based adventure sports 282 8.7 Summary and study questions 295 9. Aerobic endurance part 1: high-intensity activities 299 9.1 Introduction 299 9.2 Aerobic-anaerobic transition and lactate threshold 300 9.3 Physiological response to high-intensity endurance activities 307 9.4 Physiological adaptations to training 318 9.5 Nutritional ergogenic aids to aerobic performance 320 9.6 Physiological challenge of thermal stress 323 9.7 The physiology of land-based adventure sports 333 9.8 The physiology of water-based adventure sports 336 9.9 Summary and study questions 346 10. Aerobic endurance part 2: lower-intensity activities 351 10.1 Introduction 351 10.2 Aerobic system 352 10.3 Physiological response to lower intensity endurance activities 373 10.4 Physiological adaptations to training 376 10.5 Nutritional ergogenic aids to aerobic performance 377 10.6 The effects of hyperbaric and hypobaric condition on performance 382 10.7 The physiology of mountaineering 396 10.8 Summary and study questions 406 References 411 Index 429
Acknowledgements. Preface. PART I: THE FOUNDATIONS OF ADVENTURE SPORT
PHYSIOLOGY. 1. A Historical Perspective: The Context of Adventure
Physiology. 1.1 The earliest physiologists. 1.2 The founders of exercise
physiology. 1.3 The development of environmental physiology. 1.4 The
origins of adventure physiology. 1.5 The development of adventure sports.
2. Nutrition for Health and Performance. 2.1 Introduction to nutrition. 2.2
Carbohydrates. 2.3 Fats. 2.4 Proteins. 2.5 Vitamins. 2.6 Minerals. 2.7
Water. 3. The Structure and Functioning of the Human Body. 3.1 The cellular
basis for life. 3.2 Skeletal system. 3.3 Nervous system. 3.4 Endocrine
system. 3.5 Summary and study questions. 4. Fundamental Systems for
Adventure Sports. 4.1 Muscular system. 4.2 Respiratory system. 4.3
Cardiovascular system. 4.4 Energy systems. 4.5 Summary and study questions.
5. Training Fundamentals. 5.1 Introduction to training methodology. 5.2
Developing and designing training programmes. 5.3 Summary and study
questions. PART II: THE PHYSIOLOGICAL DEMANDS OF ADVENTURE SPORTS. 6. Power
and Power Endurance: The Explosive Activities. 6.1 Introduction. 6.2 Muscle
fibre types. 6.3 The phosphagen system. 6.4 Physiological response to power
and power endurance activities and fatigue. 6.5 Physiological adaptations
to power training. 6.6 Nutritional ergogenic aids to power performance. 6.7
Summary and study questions. 7. Anaerobic Endurance: The Lactate Tolerance
and Management Activities. 7.1 Introduction. 7.2 Glycolysis. 7.3
Physiological response to anaerobic endurance activities and fatigue. 7.4
Physiological adaptations to anaerobic endurance training. 7.5 Nutritional
ergogenic aids to anaerobic performance. 7.6 Sport-specific physiology. 7.7
Summary and study questions. 8. The Intermittent Adventure Activities. 8.1
Introduction. 8.2 Physiology of intermittent activities. 8.3 Training and
recovery in intermittent activity. 8.4 Nutrition and ergogenic aids for
intermittent activities. 8.5 Water immersion. 8.6 The physiology of
water-based adventure sports. 8.7 Summary and study questions. 9. Aerobic
Endurance I: The High-Intensity Activities. 9.1 Introduction. 9.2
Aerobic-anaerobic transition and lactate threshold. 9.3 Physiological
response to high-intensity endurance activities. 9.4 Physiological
adaptations to training. 9.5 Nutritional ergogenic aids to aerobic
performance. 9.6 Physiological challenge of thermal stress. 9.7 The
physiology of land-based adventure sports. 9.8 The physiology of
water-based adventure sports. 9.9 Summary and study questions. 10. Aerobic
Activities II: Lower Intensity Endurance Activities. 10.1 Introduction.
10.2 Aerobic system. 10.3 Physiological response to lower intensity
endurance activities. 10.4 Physiological adaptations to training. 10.5
Nutritional ergogenic aids to aerobic performance. 10.6 The effects of
hyperbaric and hypobaric condition on performance. 10.7 The physiology of
mountaineering. 10.8 Summary and study questions. References. Index.
PHYSIOLOGY. 1. A Historical Perspective: The Context of Adventure
Physiology. 1.1 The earliest physiologists. 1.2 The founders of exercise
physiology. 1.3 The development of environmental physiology. 1.4 The
origins of adventure physiology. 1.5 The development of adventure sports.
2. Nutrition for Health and Performance. 2.1 Introduction to nutrition. 2.2
Carbohydrates. 2.3 Fats. 2.4 Proteins. 2.5 Vitamins. 2.6 Minerals. 2.7
Water. 3. The Structure and Functioning of the Human Body. 3.1 The cellular
basis for life. 3.2 Skeletal system. 3.3 Nervous system. 3.4 Endocrine
system. 3.5 Summary and study questions. 4. Fundamental Systems for
Adventure Sports. 4.1 Muscular system. 4.2 Respiratory system. 4.3
Cardiovascular system. 4.4 Energy systems. 4.5 Summary and study questions.
5. Training Fundamentals. 5.1 Introduction to training methodology. 5.2
Developing and designing training programmes. 5.3 Summary and study
questions. PART II: THE PHYSIOLOGICAL DEMANDS OF ADVENTURE SPORTS. 6. Power
and Power Endurance: The Explosive Activities. 6.1 Introduction. 6.2 Muscle
fibre types. 6.3 The phosphagen system. 6.4 Physiological response to power
and power endurance activities and fatigue. 6.5 Physiological adaptations
to power training. 6.6 Nutritional ergogenic aids to power performance. 6.7
Summary and study questions. 7. Anaerobic Endurance: The Lactate Tolerance
and Management Activities. 7.1 Introduction. 7.2 Glycolysis. 7.3
Physiological response to anaerobic endurance activities and fatigue. 7.4
Physiological adaptations to anaerobic endurance training. 7.5 Nutritional
ergogenic aids to anaerobic performance. 7.6 Sport-specific physiology. 7.7
Summary and study questions. 8. The Intermittent Adventure Activities. 8.1
Introduction. 8.2 Physiology of intermittent activities. 8.3 Training and
recovery in intermittent activity. 8.4 Nutrition and ergogenic aids for
intermittent activities. 8.5 Water immersion. 8.6 The physiology of
water-based adventure sports. 8.7 Summary and study questions. 9. Aerobic
Endurance I: The High-Intensity Activities. 9.1 Introduction. 9.2
Aerobic-anaerobic transition and lactate threshold. 9.3 Physiological
response to high-intensity endurance activities. 9.4 Physiological
adaptations to training. 9.5 Nutritional ergogenic aids to aerobic
performance. 9.6 Physiological challenge of thermal stress. 9.7 The
physiology of land-based adventure sports. 9.8 The physiology of
water-based adventure sports. 9.9 Summary and study questions. 10. Aerobic
Activities II: Lower Intensity Endurance Activities. 10.1 Introduction.
10.2 Aerobic system. 10.3 Physiological response to lower intensity
endurance activities. 10.4 Physiological adaptations to training. 10.5
Nutritional ergogenic aids to aerobic performance. 10.6 The effects of
hyperbaric and hypobaric condition on performance. 10.7 The physiology of
mountaineering. 10.8 Summary and study questions. References. Index.