The energetic significance of cooking.

Bibliographic Collection: 
APE, MOCA Reference
Publication Type: Journal Article
Authors: Carmody, Rachel N; Wrangham, Richard W
Year of Publication: 2009
Journal: J Hum Evol
Volume: 57
Issue: 4
Pagination: 379-91
Date Published: 2009 Oct
Publication Language: eng
ISSN: 1095-8606
Keywords: Bacterial Infections, Cooking, Cultural Evolution, Diet, Diet, Vegetarian, Dietary Carbohydrates, Energy Metabolism, Female, Food Handling, Foodborne Diseases, Humans, Male, Peas, Safety, Seeds, Solanum tuberosum
Abstract:

While cooking has long been argued to improve the diet, the nature of the improvement has not been well defined. As a result, the evolutionary significance of cooking has variously been proposed as being substantial or relatively trivial. In this paper, we evaluate the hypothesis that an important and consistent effect of cooking food is a rise in its net energy value. The pathways by which cooking influences net energy value differ for starch, protein, and lipid, and we therefore consider plant and animal foods separately. Evidence of compromised physiological performance among individuals on raw diets supports the hypothesis that cooked diets tend to provide energy. Mechanisms contributing to energy being gained from cooking include increased digestibility of starch and protein, reduced costs of digestion for cooked versus raw meat, and reduced energetic costs of detoxification and defence against pathogens. If cooking consistently improves the energetic value of foods through such mechanisms, its evolutionary impact depends partly on the relative energetic benefits of non-thermal processing methods used prior to cooking. We suggest that if non-thermal processing methods such as pounding were used by Lower Palaeolithic Homo, they likely provided an important increase in energy gain over unprocessed raw diets. However, cooking has critical effects not easily achievable by non-thermal processing, including the relatively complete gelatinisation of starch, efficient denaturing of proteins, and killing of food borne pathogens. This means that however sophisticated the non-thermal processing methods were, cooking would have conferred incremental energetic benefits. While much remains to be discovered, we conclude that the adoption of cooking would have led to an important rise in energy availability. For this reason, we predict that cooking had substantial evolutionary significance.

DOI: 10.1016/j.jhevol.2009.02.011
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