Human total, basal and activity energy expenditures are independent of ambient environmental temperature

Xueying Zhang, Shenzhen Institute of Advanced Technology
Yosuke Yamada, Kyoto University of Advanced Science
Hiroyuki Sagayama, University of Tsukuba
Philip N. Ainslie, Liverpool John Moores University
Ellen E. Blaak, Universiteit Maastricht
Maciej S. Buchowski, Vanderbilt University Medical Center
Graeme L. Close, Liverpool John Moores University
Jamie A. Cooper, University of Georgia
Sai Krupa Das, Jean Mayer USDA Human Nutrition Research Center on Aging
Lara R. Dugas, Loyola University Chicago
Michael Gurven, University of California, Santa Barbara
Asmaa El Hamdouchi, Université Ibn Tofail
Sumei Hu, Beijing Technology and Business University
Noorjehan Joonas, Ministry of Health
Peter Katzmarzyk, Pennington Biomedical Research Center
William E. Kraus, Duke University School of Medicine
Robert F. Kushner, Northwestern University
William R. Leonard, Northwestern University
Corby K. Martin, Pennington Biomedical Research Center
Erwin P. Meijer, Universiteit Maastricht
Marian L. Neuhouser, University of Washington
Robert M. Ojiambo, Moi University
Yannis P. Pitsiladis, University of Brighton
Guy Plasqui, Universiteit Maastricht
Ross L. Prentice, University of Washington
Susan B. Racette, Washington University School of Medicine in St. Louis
Eric Ravussin, Pennington Biomedical Research Center
Leanne M. Redman, Pennington Biomedical Research Center
Rebecca M. Reynolds, University of Edinburgh, College of Medicine and Veterinary Medicine
Susan B. Roberts, Jean Mayer USDA Human Nutrition Research Center on Aging
Luis B. Sardinha, Faculdade de Motricidade Humana, Universidade de Lisboa
Analiza M. Silva, Faculdade de Motricidade Humana, Universidade de Lisboa
Eric Stice, Stanford University
Samuel S. Urlacher, Baylor University

Document Type

Article

Publication Date

8-19-2022

Abstract

Lower ambient temperature (Ta) requires greater energy expenditure to sustain body temperature. However, effects of Ta on human energetics may be buffered by environmental modification and behavioral compensation. We used the IAEA DLW database for adults in the USA (n = 3213) to determine the effect of Ta (−10 to +30°C) on TEE, basal (BEE) and activity energy expenditure (AEE) and physical activity level (PAL). There were no significant relationships (p > 0.05) between maximum, minimum and average Ta and TEE, BEE, AEE and PAL. After adjustment for fat-free mass, fat mass and age, statistically significant (p < 0.01) relationships between TEE, BEE and Ta emerged in females but the effect sizes were not biologically meaningful. Temperatures inside buildings are regulated at 18–25°C independent of latitude. Hence, adults in the US modify their environments to keep TEE constant across a wide range of external ambient temperatures.

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