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Compensation in resting metabolism for experimentally increased activity (1998)

Deerenberg, C. ; Overkamp, G. J. F. ; Visser, G. H. ; [et al.]

Springer

Journal of comparative physiology 168 (1998), S. 507-512

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ISSN: 1432-136X

Keywords: Key words Hopping activity ; Compensation ; Energy expenditure ; Resting metabolic rate ; Body mass

Source: Springer Online Journal Archives 1860-2000

Topics: Biology , Medicine

Notes: Abstract To study zebra finch allocation of energy to day and night at two different workloads, we assessed the daily energy turnover from: (1) metabolizable energy of the food, and (2) doubly-labeled water. In both experiments we imposed two levels of activity on captive zebra finches (Taeniopygia guttata), by applying different computer-controlled workload schedules. A low workload required 20 hops, and a high workload 40 hops to obtain 10 s access to food. In experiment 1, we further measured nocturnal energy expenditure by overnight oxygen consumption. From experiment 2 we derived an estimate of the costs of hopping activity, from inter-individual association of daily amount of hopping and daily energy expenditure. Surprisingly, the daily energy budget was, on average, reduced slightly when birds were subjected to a high workload. Since hopping activity was 50% higher during the high workload than during the low workload, the birds apparently compensated, even over-compensated, for the increased energetic demands of activity. Nocturnal energy expenditure was indeed reduced for the high workload, which was largely due to a reduction in resting metabolic rate. Economizing on energy was more than could have been accomplished by a reduction in mass alone, and we discuss the occurrence and potential mechanisms of physiological compensation. The amount of energy saved during the night did account for part of the total amount of energy saved. We surmise that the strategy of energetic compensation observed during the night was extended into the inactive hours of the day.

Type of Medium: Electronic Resource

URL: http://dx.doi.org/10.1007/s003600050171

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Validation of the doubly labeled water method in Japanese Quail Coturnix c. japonica chicks: is there an effect of growth rate? (2000)

Visser, G. H. ; Boon, P. E. ; Meijer, H. A. J.

Springer

Journal of comparative physiology 170 (2000), S. 365-372

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ISSN: 1432-136X

Keywords: Key words Doubly labeled water ; Energy expenditure ; Japanese Quail Coturnix c. japonica ; Growth ; Fractional evaporative water loss ; AbbreviationsCb isotope concentration of background ; Cd isotope concentration of dose ; Ci isotope concentration at start ; Cf isotope concentration at end ; DLW doubly labeled water ; f1 fractionation factor ; k fractional turnover rate ; kd fractional turnover rate 2H ; ko fractional turnover rate 18O ; M average body mass ; Mf body mass at end ; Mi body mass at start ; N amount of body water ; Q dose of isotopes administered ; rCO2 rate of CO2 production ; rCO2-DLW rate of CO2 production measured with doubly labeled water ; rCO2-IR rate of CO2 production measured with respiration gas analysis ; Rdilspace ratio 2H and 18O body water dilution spaces ; rG fractional evaporative water loss ; RGR relative growth rate ; rH2O water efflux rate ; rH2O-uncorr water efflux rate uncorrected for fractionation effects ; t time ; TBW total amount of body water

Source: Springer Online Journal Archives 1860-2000

Topics: Biology , Medicine

Notes: Abstract The Doubly Labeled Water (DLW) method was validated against respiration gas analysis in growing Japanese Quail chicks (between 1 week and 3 weeks of age) as well as in birds after having achieved sexual maturity (7 weeks of age). A comparison was made between a strain selected for high growth rates (P-strain, n=18), and a non-selected strain (C-strain, n=18). Relative growth rates of individual chicks during the measurement ranged from −13.8% day−1 to 23.1% day−1. When employing a single-pool model (eq. 34, Lifson and McClintock 1966), it was found that the relative error of the DLW method was sensitive to assumptions concerning fractional evaporative water loss. The best fit was obtained after taking a fractional evaporative water loss value of 0.33. When applying this value for all chicks, it was found that neither strain, relative growth rate of the chick during measurement, nor age significantly contributed to the explained variance. When employing two-pool models, it was found that the DLW method significantly underestimated the true rates of CO2 production at all assumed levels of fractional evaporative water loss. Based on an evaluation of DLW validation studies in growing shorebirds, terns, and quail we recommend Speakman's Eq. 7.17 (Speakman 1997) for general use in young birds.

Type of Medium: Electronic Resource

URL: http://dx.doi.org/10.1007/s003600000112

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