Undervalued and ignored: Are humans poorly adapted to energy-dense foods?

In many species the capacity to accurately differentiate the energy density (kcal/g) of foods is critical because it greatly improves efficiency in foraging. In modern humans this ability remains intact and is expressed in a selective preference for types of fruit and vegetables that contain more ca...

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Veröffentlicht in:	Appetite 2018-01, Vol.120, p.589-595
Hauptverfasser:	Brunstrom, Jeffrey M., Drake, Alex C.L., Forde, Ciarán G., Rogers, Peter J.
Format:	Artikel
Sprache:	eng
Schlagworte:	Adult Body Mass Index Choice Behavior Diet Energy density Energy Intake Expected satiation Female Food Food choice Food Preferences Fruit Health Behavior Humans Male Nutrition Nutritive Value Obesity Satiation Vegetables
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description	In many species the capacity to accurately differentiate the energy density (kcal/g) of foods is critical because it greatly improves efficiency in foraging. In modern humans this ability remains intact and is expressed in a selective preference for types of fruit and vegetables that contain more calories. However, humans evolved consuming these low energy-dense foods (typically
doi_str_mv	10.1016/j.appet.2017.10.015
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In modern humans this ability remains intact and is expressed in a selective preference for types of fruit and vegetables that contain more calories. However, humans evolved consuming these low energy-dense foods (typically < 1.75 kcal/g) and it remains unclear whether they can also discriminate more energy-dense foods that now feature in modern Western diets. In two experiment participants (both N = 40) completed four tasks that assessed the ‘value’ of different sets of 22 foods that ranged in energy density (0.1 kcal/g–5.3 kcal/g and range 0.1 kcal/g to 6.2 kcal/g in Experiment 1 and 2, respectively). In Experiment 1 three measures (expected fullness, calorie estimation, and food choice), and in foods less than approximately 1.5 kcal/g (typically fruits and vegetables), the relationship between perceived value and energy density is linear. Above this, we observed clear compressive functions, indicating relative and progressive undervaluation of higher energy-dense foods. The fourth task (rated liking) failed to provide evidence for any relationship with energy density. In Experiment 2 the same pattern was replicated in measures of expected fullness, and in two different assessments of subjective calorie content. Consistent with the concept of ‘evolutionary discordance,’ this work indicates that modern human physiology is poorly adapted to evaluate foods that have a historically unusual (high) energy density. 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subjects	Adult Body Mass Index Choice Behavior Diet Energy density Energy Intake Expected satiation Female Food Food choice Food Preferences Fruit Health Behavior Humans Male Nutrition Nutritive Value Obesity Satiation Vegetables
title	Undervalued and ignored: Are humans poorly adapted to energy-dense foods?
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