The significance of the aerobic-anaerobic transition for the determination of work load intensities during endurance training.
about
Responses to increasing exercise upon reaching the anaerobic threshold, and their control by the central nervous system.Blood lactate measurements and analysis during exercise: a guide for cliniciansThe Lactate Minimum Test: Concept, Methodological Aspects and Insights for Future Investigations in Human and Animal Models.Scientific approach to the 1-h cycling world record: a case study.Muscle glycogen metabolism changes in rats fed early postnatal a fructose-rich diet after maternal protein malnutrition: effects of acute physical exercise at the maximal lactate steady-state intensity.An holistic approach to recovery from an overuse injury in a games playerThe influence of training on endurance and blood lactate concentration during submaximal exercise.Lactate threshold predicting time-trial performance: impact of heat and acclimation.Anaerobic threshold: the concept and methods of measurement.Lactate threshold responses to a season of professional British youth soccer.Metabolic responses to acute physical exercise in young rats recovered from fetal protein malnutrition with a fructose-rich diet.Effects of Aerobic Exercise Based upon Heart Rate at Aerobic Threshold in Obese Elderly Subjects with Type 2 DiabetesSome physiological demands of a half-marathon race on recreational runners.The metabolic challenge of the marathonClassification of selected cardiopulmonary variables of elite athletes of different age, gender, and disciplines during incremental exercise testingThe training intensity distribution among well-trained and elite endurance athletes.Differences in Ventilatory Threshold for Exercise Prescription in Outpatient Diabetic and Sarcopenic Obese Subjects.Changes in cortical activity measured with EEG during a high-intensity cycling exerciseMethodological approach to the first and second lactate threshold in incremental cardiopulmonary exercise testing.Lactate and Ventilatory Thresholds Reflect the Training Status of Professional Soccer Players Where Maximum Aerobic Power is Unchanged.Breakpoints in ventilation, cerebral and muscle oxygenation, and muscle activity during an incremental cycling exercise.Eleven-Week Preparation Involving Polarized Intensity Distribution Is Not Superior to Pyramidal Distribution in National Elite RowersInfluence of taekwondo as security martial arts training on anaerobic threshold, cardiorespiratory fitness, and blood lactate recovery.A 6-month analysis of training-intensity distribution and physiological adaptation in Ironman triathletes.A review of research in sports physiology.Energy system contributions during incremental exercise testAssessment of ventilatory thresholds during graded and maximal exercise test using time varying analysis of respiratory sinus arrhythmia.The effects of maximum steady state pace training on running performance.Effect of marathon training on the plasma lactate response to submaximal exercise in middle-aged men.Non-invasive indices for the estimation of the anaerobic threshold of oarsmen.Is lactic acidosis a cause of exercise induced hyperventilation at the respiratory compensation point?Effects of magnesium on exercise performance and plasma glucose and lactate concentrations in rats using a novel blood-sampling technique.The influence of the site of sampling and assay medium upon the measurement and interpretation of blood lactate responses to exercise.The impact of aerobic exercise on blood pressure variability.The influence of muscle fatigue on electromyogram and plantar pressure patterns as an explanation for the incidence of metatarsal stress fractures.Metabolic and hormonal responses to graded exercise with training above and below the anabolic threshold.Heart rate, blood lactate concentration, and time-motion analysis of female basketball players during competition.A comparison of lactate indices during ramp exercise using modelling techniques and conventional methods.Session perceived exertion and affective responses to self-selected and imposed cycle exercise of the same intensity in young men.Quantifying training intensity distribution in elite endurance athletes: is there evidence for an "optimal" distribution?
P2860
Q27691697-1A0AD1A9-B96B-4366-AC4F-D2C991156308Q28263445-D958B27B-10C6-41B1-BF23-311AB0BD6ECDQ33775182-695E94E1-28C4-4457-BAD2-F56F8AE82DAEQ33919497-0ED52053-512D-4416-8F10-53184813F775Q34515340-157C92AD-434D-4E36-8A45-72E3425AD3ABQ34677291-BA13A13C-DAF0-43F2-BA25-561EB0855011Q34677463-C3A8882F-AC90-40A0-95A4-0EE8E7018386Q35108723-DA627BE8-4C39-4135-B79F-2AF9F08B0502Q35161982-F852B1C5-3D94-48E5-8996-EE698E8D6767Q35333709-6C0D5F50-C013-4525-9490-69F3C8B4255CQ35389809-D9C5A75C-EF65-4CAC-B97D-C3433C8EC080Q35674001-D9CDCF01-BF87-4BC1-843F-1B4D438FBDFDQ35766937-23C5B041-9791-442A-BA00-C1F5208EED22Q35767101-20B5FA21-EB8A-4A27-A5A9-EE946241FC27Q36087413-ECF5B23A-BBAF-413C-B7D8-BC6E07661BABQ36209236-5D72F276-B872-4B45-8EF2-570A0930DA04Q36537853-F9284D3E-95C5-4C32-AB72-A687B810CE93Q36598013-BC6E1F07-10C8-4799-AB23-EBD46E7B868EQ37339590-5461233C-651B-4A9F-8BB0-4F10DD280E44Q37608310-EE87D11C-91B4-45AB-B4CF-36A96DF48E12Q37708160-6E25108C-B1C4-47EB-9004-B04368B1DF5CQ38616790-CECDD955-B80C-4C59-B7CE-BB978A0403BDQ38910375-5B39C791-4D9E-4491-8739-7DCE726947A3Q39701457-809E674A-8DC6-4B0B-8783-69F5362FEB7EQ40740560-D0EBB1A6-443A-4353-AD3D-32AC365F5BB0Q41869227-C2081537-9F4E-4561-9656-07DBC281040CQ42220236-4189AED8-9341-4740-A22D-BDF2F9DF6C49Q42409631-23FF2E68-248E-47E8-B39D-6559ABC70F1EQ42409807-80E432EC-8666-444C-AB02-DC7182689B1DQ42916628-914B3EBC-298C-41B4-A8A8-F94E8B5B06CFQ43090651-3DF2EFDE-C396-448A-99E1-CB53E7B1C592Q43211154-682A6346-87CE-4565-98E1-EAD54051CD1EQ44853976-14EFE282-F1A8-471B-8E39-A0B797A97F25Q44915857-F1AC8F47-FB05-4223-B14A-168326744638Q45168664-AB6A432F-B5DA-48B3-8977-A7868464ED4FQ45915340-A64A1DD0-168B-4513-9A63-A8F68D3566A0Q45955616-549B1F35-A109-47E6-A976-D01CC12FA9D7Q46314391-C540F0E4-F03F-4848-90DA-CAA14086FA6BQ46535095-E7FE2930-D0DB-4F99-99F2-BD8229DA8175Q46906956-0FF1804C-399D-4194-B479-C7E0150D207F
P2860
The significance of the aerobic-anaerobic transition for the determination of work load intensities during endurance training.
description
1979 nî lūn-bûn
@nan
1979年の論文
@ja
1979年学术文章
@wuu
1979年学术文章
@zh-cn
1979年学术文章
@zh-hans
1979年学术文章
@zh-my
1979年学术文章
@zh-sg
1979年學術文章
@yue
1979年學術文章
@zh
1979年學術文章
@zh-hant
name
The significance of the aerobi ...... ies during endurance training.
@en
The significance of the aerobi ...... ies during endurance training.
@nl
type
label
The significance of the aerobi ...... ies during endurance training.
@en
The significance of the aerobi ...... ies during endurance training.
@nl
prefLabel
The significance of the aerobi ...... ies during endurance training.
@en
The significance of the aerobi ...... ies during endurance training.
@nl
P2093
P356
P1476
The significance of the aerobi ...... ies during endurance training.
@en
P2093
P356
10.1007/BF00421101
P577
1979-09-01T00:00:00Z