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- All Subjects: Nutrition
- Creators: Wardenaar, Floris
- Member of: ASU Electronic Theses and Dissertations
examined the impact of hiking in hot (HOT), dry temperatures versus moderate (MOD)
temperatures on dietary intake behaviors as well as markers of heat stress. Twelve
recreational mountain hikers climbed “A” Mountain four consecutive times (4-miles) on
a HOT day (WBGT=31.6 °C) and again on a MOD day (WBGT= 19.0 °C). Simulated
food and fluid behavior allowed participants to bring what they normally would for a 4-
mile hike and to consume both ad libitum. The following heat stress indicators (mean
difference; p-value), were all significantly higher on the HOT hike compared to the MOD
hike: average core temperature (0.6 °C; p=0.002), average rating of perceived exertion
(2.6; p=0.005), sweat rate (0.54; p=0.01), and fluid consumption (753; p<0.001). On the
HOT hike, 42% of the participants brought enough fluids to meet their individual
calculated fluid needs, however less than 20% actually consumed enough to meet those
needs. On the MOD hike, 56% of participants brought enough fluids to meet their needs,
but only 33% actually consumed enough to meet them. Morning-after USG samples
≥1.020 indicating dehydration on an individual level showed 75% of hikers after the
HOT hike and 67% after the MOD hike were unable to compensate for fluids lost during
the previous day’s hike. Furthermore, participant food intake was low with only three
hikers consuming food on the hot hike, an average of 33.2g of food. No food was
consumed on the MOD hike. These results demonstrate that hikers did not consume
enough fluids to meet their needs while hiking, especially in the heat. They also show
heat stress negatively affected hiker’s physiological and performance measures. Future
recommendations should address food and fluid consumption while hiking in the heat.
This study aimed to investigate the effects of specific macronutrient feedings on competitive golf performance and perceived levels of fatigue and alertness. Participants played three, nine hole rounds of golf, consuming an isocaloric beverage as a control (CON), with the addition of carbohydrate (CHO), or combination of protein and carbohydrate (COM). Physiological and performance measurements were taken before, during, and following each nine hole round. Performance measurements include driving accuracy (DA), driving distance (DD), iron accuracy (IA), chipping accuracy (CA), and putting accuracy (PA). Pre-golf hydration status (urine specific gravity [USG]) and Sweat Rate during golf performance showed no significant differences between trials. All nine hole rounds were performed in ~2 hours. Environmental conditions were similar for all three testing days (mean WBGT=10.946). No significant differences were seen in Driving Distance, Driving Accuracy, and Iron Accuracy for all nine holes between groups receiving different macronutrient feedings. Chipping Accuracy was significantly better in CON trial compared to CHO (p=0.004) and COM (p=0.019). No significant differences were seen in putting make percentages. COM trial significantly lowered Perceived Levels of Fatigue (p=0.019) compared to CON. The CHO trial showed significant improvements in DA compared to CON (13.7 vs. 44.1, p=0.012) and COM (13.7 vs. 33.6, p=0.004) in the first four holes. In the last five holes, the COM trial showed significant improvements in DA compared to CHO (17.5 vs. 29.7, p=0.007). Low Handicap golfers (3 +/- 3) performed significantly better than High Handicap golfers (14 +/- 3.6) in DD (265 vs. 241, p<0.001), DA (15.0 vs. 29.3, p=0.004), IA (15.2 vs. 25.2, p<0.001), CA (52.0 vs. 61.5, p=0.027), and PA 5ft (64% vs. 40%, p=0.003). High Handicap players showed no significant differences between the three trials for any golf performance measurements. Low Handicap players showed significant improvements in DA for COM trial compared to CON trial (13.6 vs. 27.6, p=0.003). The results suggest that carbohydrates at the start and a combination of carbohydrate and protein is beneficial at the second part of 9 holes to improve golf performance and maintain levels of fatigue, however, it needs to be investigated how this knowledge will relate to playing more holes.