Measuring meatabolic rate in the field: the pros and cons of the doubly labeled water and heart rate methods.

1. Measuring the metabolic rate of animals in the field (FMR) is central to the work of ecologists in many disciplines. In this article we discuss the pros and cons of the two most commonly used methods for measuring FMR. 2. Both methods are constantly under development, but at the present time can...

Full description

Bibliographic Details
Main Authors: Butler, PJ, Green, JA, Boyd, Ian Lamont, Speakman, JR
Format: Article in Journal/Newspaper
Language:English
Published: 2004
Subjects:
accuracy
field metabolic rate
precision
BLACK-BROWED ALBATROSSES
DAILY ENERGY-EXPENDITURE
GEESE BRANTA-LEUCOPSIS
CALIFORNIA SEA LIONS
ANTARCTIC FUR SEALS
ESOX-LUCIUS L
OXYGEN-CONSUMPTION
CO2 PRODUCTION
MACARONI PENGUINS
BODY-TEMPERATURE
Antarctic
Antarc*
Antarctic Fur Seals
Branta leucopsis
Online Access:https://research-portal.st-andrews.ac.uk/en/publications/bd14cff0-985a-47cc-b12b-d87bbaf29b0f
http://www.scopus.com/inward/record.url?scp=1942486910&partnerID=8YFLogxK
Description
Summary:1. Measuring the metabolic rate of animals in the field (FMR) is central to the work of ecologists in many disciplines. In this article we discuss the pros and cons of the two most commonly used methods for measuring FMR. 2. Both methods are constantly under development, but at the present time can only accurately be used to estimate the mean rate of energy expenditure of groups of animals. The doubly labelled water method (DLW) uses stable isotopes of hydrogen and oxygen to trace the flow of water and carbon dioxide through the body over time. From these data, it is possible to derive a single estimate of the rate of oxygen consumption ((V) over dot (o2)) for the duration of the experiment. The duration of the experiment will depend on the rate of flow of isotopes of oxygen and hydrogen through the body, which in turn depends on the animal's size, ranging from 24 h for small vertebrates to up to 28 days in Humans. 3. This technique has been used widely, partly as a result of its relative simplicity and potential low cost, though there is some uncertainty over the determination of the standard error of the estimate of mean (V) over dot (o2). 4. The heart rate (f(H)) method depends on the physiological relationship between heart rate and . 5. If these two quantities are calibrated against each other under controlled conditions, f(H) can then be measured in free-ranging animals and used to estimate (V) over dot (o2). 6. The latest generation of small implantable data loggers means that it is possible to measure f(H) for over a year on a very fine temporal scale, though the current size of the data loggers limits the size of experimental animals to around 1 kg. However, externally mounted radio-transmitters are now sufficiently small to be used with animals of less than 40 g body mass. This technique is gaining in popularity owing to its high accuracy and versatility, though the logistic constraint of performing calibrations can make its use a relatively extended process.

Similar Items