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The energy expenditure of Royal Navy submariners

Published online by Cambridge University Press:  05 October 2018

F. Gunner
Affiliation:
Environmental and Medicine Sciences, The Institute of Naval Medicine, Gosport, Hampshire, UK, PO12 2DL
D. Reece
Affiliation:
Environmental and Medicine Sciences, The Institute of Naval Medicine, Gosport, Hampshire, UK, PO12 2DL
C. Hambly
Affiliation:
School of Biological Sciences, University of Aberdeen, Aberdeen, Scotland, AB24 2TZ.
J.R. Speakman
Affiliation:
School of Biological Sciences, University of Aberdeen, Aberdeen, Scotland, AB24 2TZ.
J.L. Fallowfield
Affiliation:
Environmental and Medicine Sciences, The Institute of Naval Medicine, Gosport, Hampshire, UK, PO12 2DL
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Abstract

Type
Abstract
Copyright
Copyright © The Authors 2018 

Royal Navy (RN) submariners undertake bespoke maritime operational activity confined within an isolated sealed environment. Due to the covert nature of submarine activity, little is known of the physical activity levels and energy expenditure of this type of occupation. From the constraints of the work environment, it would be expected that submariners would have a sedentary to light activity level during patrols. Previous research based on self-reported data indicated Daily Estimated Energy Expenditure (DEEE) to be 13862 ± 2418 kJ in Indian submariners(Reference Singh1) whereas a recent Royal Netherlands Navy study reported DEEE of 11167 ± 2343 kJ using the doubly labelled water (DLW) technique.(Reference Helmhout2) The present study aimed to provide information on DEEE of RN personnel undertaking operational submarine activities.

Volunteers (n = 19) were recruited from an operationally deployed Trafalgar class RN submarine (Mean ± SD; Age: 31 ± 7 y; Height: 1.78 ± 0.08 m; Body Mass: 90.1 ± 15.7 kg; BMI: 28.3 ± 3.7 kg.m2). Daily energy expenditure (DEEE, kJ/day) over a routine submerged transit was estimated using the DLW technique(Reference Lifson and McClintock3) and daily Physical Activity was self-monitored using a maritime-specific bespoke task analysis questionnaire (TAQ) over consecutive 10-11 days. The study was approved by the Ministry of Defence Research Ethics Committee (Ref: 0903/228) and volunteers provided informed consent.

Mean estimated energy expenditure calculated from the DLW technique was 12800 ± 1700 kJ (3078 ± 413 kcal), whereas derived from analysis of the TAQ it was 13004 ± 1594 kJ (3108 ± 381 kcal) (Figure 1). There was no correlation between DEEE obtained from the two methods (r = 0.253, P = 0.296). The mean difference between the two techniques (DLW vs. TAQ) was −127 ± 2032 kJ (LoA: −4107 to 3853 kJ).

Fig. 1. Individual Estimated Energy Expenditure of RN Submariners (n = 19).

In conclusion, the energy expenditure of RN submariners, as measured by the gold standard DLW technique, was comparable to previously published data in similar military cohorts. Self-reported task analysis appears to be a poor descriptor of DEE due to being highly variable between individuals and not correlated to a more robust method. However, the utility of bespoke task analyses could be improved by the development of maritime military-specific physical activity level reference values instead of applying generic tasks.

© Crown Copyright (MOD) 2013: Published with the permission of the Controller of HMSO.

References

1.Singh, VK et al. (2011) Def Sci Jl 61(6), 540544.Google Scholar
2.Helmhout, P et al. (2017) J Sci Med Sport 20, S111.Google Scholar
3.Lifson, & McClintock, (1966) J Theo Bio 12, 4674.Google Scholar
Figure 0

Fig. 1. Individual Estimated Energy Expenditure of RN Submariners (n = 19).