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

Lower ambient temperature (T(a)) requires greater energy expenditure to sustain body temperature. However, effects of T(a) 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 ef...

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Autores principales: Zhang, Xueying, Yamada, Yosuke, Sagayama, Hiroyuki, Ainslie, Philip N., Blaak, Ellen E., Buchowski, Maciej S., Close, Graeme L., Cooper, Jamie A., Das, Sai Krupa, Dugas, Lara R., Gurven, Michael, El Hamdouchi, Asmaa, Hu, Sumei, Joonas, Noorjehan, Katzmarzyk, Peter, Kraus, William E., Kushner, Robert F., Leonard, William R., Martin, Corby K., Meijer, Erwin P., Neuhouser, Marian L., Ojiambo, Robert M., Pitsiladis, Yannis P., Plasqui, Guy, Prentice, Ross L., Racette, Susan B., Ravussin, Eric, Redman, Leanne M., Reynolds, Rebecca M., Roberts, Susan B., Sardinha, Luis B., Silva, Analiza M., Stice, Eric, Urlacher, Samuel S., Van Mil, Edgar A., Wood, Brian M., Murphy-Alford, Alexia J., Loechl, Cornelia, Luke, Amy H., Rood, Jennifer, Schoeller, Dale A., Westerterp, Klaas R., Wong, William W., Pontzer, Herman, Speakman, John R.
Formato: Online Artículo Texto
Lenguaje:English
Publicado: Elsevier 2022
Materias:
Article
Acceso en línea:https://www.ncbi.nlm.nih.gov/pmc/articles/PMC9294192/
https://www.ncbi.nlm.nih.gov/pubmed/35865134
http://dx.doi.org/10.1016/j.isci.2022.104682
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author Zhang, Xueying
Yamada, Yosuke
Sagayama, Hiroyuki
Ainslie, Philip N.
Blaak, Ellen E.
Buchowski, Maciej S.
Close, Graeme L.
Cooper, Jamie A.
Das, Sai Krupa
Dugas, Lara R.
Gurven, Michael
El Hamdouchi, Asmaa
Hu, Sumei
Joonas, Noorjehan
Katzmarzyk, Peter
Kraus, William E.
Kushner, Robert F.
Leonard, William R.
Martin, Corby K.
Meijer, Erwin P.
Neuhouser, Marian L.
Ojiambo, Robert M.
Pitsiladis, Yannis P.
Plasqui, Guy
Prentice, Ross L.
Racette, Susan B.
Ravussin, Eric
Redman, Leanne M.
Reynolds, Rebecca M.
Roberts, Susan B.
Sardinha, Luis B.
Silva, Analiza M.
Stice, Eric
Urlacher, Samuel S.
Van Mil, Edgar A.
Wood, Brian M.
Murphy-Alford, Alexia J.
Loechl, Cornelia
Luke, Amy H.
Rood, Jennifer
Schoeller, Dale A.
Westerterp, Klaas R.
Wong, William W.
Pontzer, Herman
Speakman, John R.
author_facet Zhang, Xueying
Yamada, Yosuke
Sagayama, Hiroyuki
Ainslie, Philip N.
Blaak, Ellen E.
Buchowski, Maciej S.
Close, Graeme L.
Cooper, Jamie A.
Das, Sai Krupa
Dugas, Lara R.
Gurven, Michael
El Hamdouchi, Asmaa
Hu, Sumei
Joonas, Noorjehan
Katzmarzyk, Peter
Kraus, William E.
Kushner, Robert F.
Leonard, William R.
Martin, Corby K.
Meijer, Erwin P.
Neuhouser, Marian L.
Ojiambo, Robert M.
Pitsiladis, Yannis P.
Plasqui, Guy
Prentice, Ross L.
Racette, Susan B.
Ravussin, Eric
Redman, Leanne M.
Reynolds, Rebecca M.
Roberts, Susan B.
Sardinha, Luis B.
Silva, Analiza M.
Stice, Eric
Urlacher, Samuel S.
Van Mil, Edgar A.
Wood, Brian M.
Murphy-Alford, Alexia J.
Loechl, Cornelia
Luke, Amy H.
Rood, Jennifer
Schoeller, Dale A.
Westerterp, Klaas R.
Wong, William W.
Pontzer, Herman
Speakman, John R.
author_sort Zhang, Xueying
collection PubMed
description Lower ambient temperature (T(a)) requires greater energy expenditure to sustain body temperature. However, effects of T(a) 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 T(a) (−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 T(a) 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 T(a) 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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spelling pubmed-92941922022-07-20 Human total, basal and activity energy expenditures are independent of ambient environmental temperature Zhang, Xueying Yamada, Yosuke Sagayama, Hiroyuki Ainslie, Philip N. Blaak, Ellen E. Buchowski, Maciej S. Close, Graeme L. Cooper, Jamie A. Das, Sai Krupa Dugas, Lara R. Gurven, Michael El Hamdouchi, Asmaa Hu, Sumei Joonas, Noorjehan Katzmarzyk, Peter Kraus, William E. Kushner, Robert F. Leonard, William R. Martin, Corby K. Meijer, Erwin P. Neuhouser, Marian L. Ojiambo, Robert M. Pitsiladis, Yannis P. Plasqui, Guy Prentice, Ross L. Racette, Susan B. Ravussin, Eric Redman, Leanne M. Reynolds, Rebecca M. Roberts, Susan B. Sardinha, Luis B. Silva, Analiza M. Stice, Eric Urlacher, Samuel S. Van Mil, Edgar A. Wood, Brian M. Murphy-Alford, Alexia J. Loechl, Cornelia Luke, Amy H. Rood, Jennifer Schoeller, Dale A. Westerterp, Klaas R. Wong, William W. Pontzer, Herman Speakman, John R. iScience Article Lower ambient temperature (T(a)) requires greater energy expenditure to sustain body temperature. However, effects of T(a) 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 T(a) (−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 T(a) 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 T(a) 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. Elsevier 2022-06-28 /pmc/articles/PMC9294192/ /pubmed/35865134 http://dx.doi.org/10.1016/j.isci.2022.104682 Text en © 2022 The Authors https://creativecommons.org/licenses/by-nc-nd/4.0/This is an open access article under the CC BY-NC-ND license (http://creativecommons.org/licenses/by-nc-nd/4.0/).
spellingShingle Article
Zhang, Xueying
Yamada, Yosuke
Sagayama, Hiroyuki
Ainslie, Philip N.
Blaak, Ellen E.
Buchowski, Maciej S.
Close, Graeme L.
Cooper, Jamie A.
Das, Sai Krupa
Dugas, Lara R.
Gurven, Michael
El Hamdouchi, Asmaa
Hu, Sumei
Joonas, Noorjehan
Katzmarzyk, Peter
Kraus, William E.
Kushner, Robert F.
Leonard, William R.
Martin, Corby K.
Meijer, Erwin P.
Neuhouser, Marian L.
Ojiambo, Robert M.
Pitsiladis, Yannis P.
Plasqui, Guy
Prentice, Ross L.
Racette, Susan B.
Ravussin, Eric
Redman, Leanne M.
Reynolds, Rebecca M.
Roberts, Susan B.
Sardinha, Luis B.
Silva, Analiza M.
Stice, Eric
Urlacher, Samuel S.
Van Mil, Edgar A.
Wood, Brian M.
Murphy-Alford, Alexia J.
Loechl, Cornelia
Luke, Amy H.
Rood, Jennifer
Schoeller, Dale A.
Westerterp, Klaas R.
Wong, William W.
Pontzer, Herman
Speakman, John R.
Human total, basal and activity energy expenditures are independent of ambient environmental temperature
title Human total, basal and activity energy expenditures are independent of ambient environmental temperature
title_full Human total, basal and activity energy expenditures are independent of ambient environmental temperature
title_fullStr Human total, basal and activity energy expenditures are independent of ambient environmental temperature
title_full_unstemmed Human total, basal and activity energy expenditures are independent of ambient environmental temperature
title_short Human total, basal and activity energy expenditures are independent of ambient environmental temperature
title_sort human total, basal and activity energy expenditures are independent of ambient environmental temperature
topic Article
url https://www.ncbi.nlm.nih.gov/pmc/articles/PMC9294192/
https://www.ncbi.nlm.nih.gov/pubmed/35865134
http://dx.doi.org/10.1016/j.isci.2022.104682
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