Summary
-
1
Intake of food, fat, protein and carbohydrates and their fecal output were recorded during the annual body weight cycle of the garden warbler, and old-world longdistance migratory bird species, and the efficiencies of food and nutrient utilization, defined as the ratio (intake-fecal output)/intake, were calculated.
-
2.
Gross food intake and food and nutrient utilization differed significantly between different phases of the birds' body weight cycle.
-
3.
During premigratory fattening, both in “autumn” and “spring”, food intake and utilization of fat, protein and carbohydrates were significantly higher than during the low body weight prefattening periods.
-
4.
The increase in efficiency of nutrient utilization accounted for about 1/3 and the increase in gross food intake about 2/3 of all surplus energy for hyperlipogenesis in the premigratory periods of the garden warbler.
-
5.
The seasonal changes in efficiency of food and nutrient utilization seem to be driven by a circannual timing mechanism.
This is a preview of subscription content, log in via an institution to check access.
Similar content being viewed by others
References
Allen WV (1976) Biochemical aspects of lipid storage and utilization in animals. Amer Zool 16:631–647
Baggott GK (1975) Moult, flight muscle “hypertrophy” and premigratory lipid deposition of the juvenile willow warbler Phylloscopus trochilus. J Zool 175:299–314
Baggott GK (1977) Changes in liver and blood composition of the premigratory willow warbler in autumn. Comp Biochem Physiol 56A:461–466
Bairlein F (1983) Seasonal variations of serum glucose levels in a migratory songbird, Sylvia borin. Comp Biochem Physiol 76A:397–399
Bairlein F (1985) Body weights and fat deposition of Palaerctic passerine migrants in the central Sahara. Oecologia 66:141–146
Berthold P (1975) Migration: control and metabolic physiology. In: Farner DS, King JR (eds) Avian Biology, Vol 5. Academic Press, London, New York, pp 77–128
Berthold P (1976) Ammalische und vegetabilische Ernährung omnivorer Singvogelarten: Nahrungsbevorzugung, Jahresperiodik der Nahrungswahl, physiologische und ökologische Bedeutung. J Orn 117:145–209
Berthold P (1984) The endogenous control of bird migration: a survey of experimental evidence. Bird Study 31:19–27
Berthold P, Wwinner E, Klein H (1972a) Cireannuale Periodik bei Grasmücken-I. Periodik des Körpergewichtes, der Mauser und der Nachtunruhe bei Sylvia atricapilla und S. borin unter verschiedenen konstanten Bedingungen. J Orn 113:170–190
Berthold P, Gwinner E, Klein H (1972b) Circannuale Periodik bei Grasmücken-II. Periodik der Gonadengröße bei Sylvia atricapilla und S. borin under verschidenen konstanten Bedingungen. J Orn 113:407–417
Berthold P, Gwinner E, Klein H, Westrich P (1972c) Beziehungen zwischen Zugunruhe und Zugablauf bei Garten- und Mönchsgrasmücken (Sylvia borin and S. atricapilla). Z Tierpsychol 30:26–35
Bhatt D, Chandola A (1985) Circannual rhythm of food intake in spotted munia and its phase relationship with fattening and reproductive cycles. J Comp Physiol A 156:429–432
Blem CR (1976) Patterns of lipid storage and utilization in birds. Amer Zool 16:671–684
Blem CR (1980) The energetics of migration. In: Gauthreaux SA (ed) Animal migration, orientation, and navigation. Academic Press, New York London, pp 175–224
Bolton W (1955) The digestibility of the carbohydrate complex by birds of different ages. J Agr Sci 46:420–424
Brensing D (1977) Nahrungsökologische Untersuchungen an Zugvögeln in einem südwestdeutschen Durchzugsgebiet während des Wegzuges. Vogelwarte 29:44–56
Ceska V (1980) Untersuchungen zu Nahrungsverbrauch, Nahrungsnutzung und Energiehaushalt bei Eulen. J Orn 121:186–199
Clark GA Jr (1979) Body weights of birds: a review. Condor 81:193–202
Cooper TG (1981) Biochemische Arbeitsmethoden. deGruyter, Berlin
Dawson WR, Yacoe ME, Marsh RL (1983) Metabolic adjustments of small birds for migration and cold (review). Amer J Physiol 245:755–767
Dixon WJ, Brown MB, Engelman L, Frane JW, Hill MA, Jennrich RI, Toporek JD (1981) BMDP Statistical Software 1981. University of California Press, Berkeley
Dolnik VR, Blyumenthal TI (1967) The bioenergetics of bird migration. Suec Mod Biol 58:280–301
Dolnik VR, Blyumenthal TI (1967) Autumnal premigratory and migratory periods in the chaffinch (Fringilla coelebs) and some other temperate-zone passerine birds. Condor 69:435–468
Duke GE, Ciganek JG, Evanson OA (1973) Food consumption and energy, water and nitrogen budgets in captive great horned owls (Bubo virginianus). Comp Biochem Physiol 44A:283–292
Farner DS, King JR, Stetson MH (1969) The control of fat metabolism in migratory birds. In: Gual C (ed) Progress in Endocrinology. Int Congr Ser 184:152–157
Fisher H (1972) The nutrition of birds. In: Farner DS, King JR (eds) Avian Biology Vol 2. Academic Press, London New York, pp 431–469
Folch J, Lees M, Sloane Stanley GH (1957) A simple method for the isolation and purification of total lipids from animal tissues. J Biol Chem 226:497–509
Fry CH, Ferguson-Lees IJ, Dowsett RJ (1972) Flight muscle hypertrophy and ecophysiological variation of yellow wagtail Motacilla flava races at Lake Chad. J Zool 167:293–306
Gessman JA (1972) Bioenergetics of the snowy owl (Nyctea scandiaca). Acctic and Alpine Res 4:223–238
Gibb J (1957) Food requirements and other observations of captive tits. Bird Study 4:207–215
Gifford CE, Odum EP (1965) Bioenergetics of lipid deposition in the bobolink a transequatorial migrant. Condor 67:383–403
Graber R (1962) Food and oxygen consumption in three species of owls (Strigidae). Condor 64:473–487
Gwinner E (1977) Circannual rhythms in bird migration. Ann Rev Ecol Syst 8:381–405
Hainsworth FR (1974) Food quality and foraging efficiency. J Comp Physiol 88:425–431
Harvey S, Klandorf H, Phillips JG (1981) Effect of food or water deprivation on circulating levels of pituitary, thyroid and adrenal hormones and on glucose and electrolyte concentrations in domestic ducks (Anas platyrhynchos). J Zool 194:341–361
Hazelwood RL (1984) Pancreatic hormones, insulin/glucagon molar ratios, and somatostatin as determinants of avian carbohydrate metabolism. J Exp Zool 232:647–652
Henry RJ (1964) Clinical Chemistry. Harper & Row, New York
Hoffmann R, Prinzinger R (1984) Torpor and Nahrungsnutzung bei 4 Mausvogelarten (Coliiformes). J Orn 125:225–237
Holthuijzen AMA, Adkisson CS (1984) Passage rate, energetics, and utilization efficiency of the cedar waxwing. Wils Bull 96:680–684
Jacobs HL (1969) Sensory and metabolic signals in the control of food intake. Ann New York Acad Sci 157:1084–1126
Kendeigh SC (1949) Effect of temperature and season on energy resources of the english sparrow. Auk 66:113–127
King JR (1961a) On the regulation of vernal premigratory fattening in the white-crowned sparrow. Physiol Zool 34:145–157
King JR (1961b) The bioenergetics of vernal premigratory fat deposition in the white-crowned sparrow. Condor 63:128–142
King JR (1963) Autumnal migratory-fat deposition in the whitecrowned sparrow. Proc 13. Int Orn Congr: 940–949
King JR,(1970) Adaptive periodic fat storage by birds. Proc 15. Int Orn Congr: 200–217
King JR, Farner DS (1965) Studies of fat deposition in migratory birds. Ann New York Acad Sci 131:422–440
Klein H, Berthold P, Gwinner E (1973) Der Zug europäischer Garten- und Mönchsgrasmücken. Vogelwarte 27:73–134
Krebs JR, Davies NB (1978) Behavioural Ecology — An Evolutionary Approach. Blackwell, Oxford
Leitzmann C (1978) Die physiologische Regulation der Nahrungsaufnahme. Ernährungs-Umschau 25:115–120
Marsh RL (1984) Catabolic enzyme activities in relation to premigratory fattening and muscle hypertrophy in the gray catbird (Dumetella carolinensis). J Comp Physiol 141:417–423
Marsh RL (1984) Adaptations of the gray catbird (Dumetella carolinensis) to long-distance migration: flight muscle hypertrophy associated with elevated body mass. Physiol Zool 57:105–117
Martin EW (1968) The effects of dietary protein on the energy and nitrogen balance in the tree sparrow. Physiol Zool 41:313–331
Mateos GG, Sell JL (1981) Metabolizable energy of supplemental fat as related to dietary-fat level and methods of estimation. Poultry Sci 60:1509–1515
Merkel FW (1958) Untersuchungen über tages- und jahreszeitliche Änderungen im Energiehaushalt gekäfigter Zugvögel. Z vergl Physiol 41:154–178
Moore MC, Donham RS, Farner DS (1982) Physiological preparations for autumnal migration in white-crowned sparrows. Condor 84:410–419
Moss R, Parkinson JA (1972) The digestibility of heather (Calluna vulgaris) by red grouse (Lagopus lagopus scotticus). Brit J Nutr 27:285–298
Nie NH, Hull CH, Jenkins JG, Steinbrenner K, Bent DH (1975) SPSS — Statistical Package for the Social Sciences. McGraw-Hill, New York
Niethammer G (1937) Handbuch der deutschen Vogelkunde. Akademische Verlagsgesellschaft, Leipzig
Odum EP, Perkinson JD (1951) Relation of lipid metabolism to migration in birds. Seasonal variation in body lipids of the migratory white-crowned sparrow. Physiol Zool 25:216–230
Odum EP, Rogers DT, Hicks DL (1964) Homeostasis of the nonfat components of migrating birds. Science 143:1037–1039
Pyke GH, Pulliam HR, Charnov EL (1977) Optimal foraging: a selective review of theory and tests. Quart Rev Biol 52:137–154
Rayner JMV (1982) Avian flight energetics. Ann Rev Physiol 44:109–119
Robbins CT (1983) Wildlife feeding and nutrition. Academic Press, New York London
Robinzon B, Rogers JG Jr (1979) The effect of gonadal and thyroid hormones on the regulation of food intake and adiposity, and on various endocrine glands, in the redwinged blackbird (Agelaius phoeniceus). Gen Comp Endocrinol 38:135–147
Schildmacher H, Rautenberg W (1952) über die Wirkung kleiner Mengen Thyroxin auf das Körpergewicht bei Finkenvögeln. Biol Zb 71:397–405
Schildmacher H, Steubing L (1952) Untersuchungen zur hormonalen Regulierung des Fettwerdens der Zugvögel im Frühjahr. Biol Zb 71:272–282
Schoener TW (1971) Theory of feeding strategies. Ann Rev Ecol Syst 2:369–404
Seifter S, Dayton S, Novic B, Muntwyler E (1950) The estimation of glycogen with the anthrone reagent. Arch Biochem 25:191–200
Shah RV, Patel ST, Pilo B (1978) Glucose-6-phosphate dehydrogenase and “malic” enzyme activities during adaptive hyperlipogenesis in migratory starling (Sturnus roseus) and white wagtail (Motacilla alba). Can J Zool 56:2083–2087
Sturkie PD (1976) Avian physiology. 3rd ed Springer, Berlin
Vallyathan NV, George JC (1964) Glycogen content and phosphorylase activity in the breast muscle of the migratory starling, Sturnus roseus. Pavo 2:55–60
Van de Kamer JH, ten Bokkel Huinink H, Weyers HA (1949) Rapid method for the determination of fat in feces. J Biol Chem 177:347–355
Weppelman RM (1984) Effects of gonadal-steroids and adrenergic agonists on avian growth and feed-efficiency. J Exp Zool 232:461–464
West GC (1960) Seasonal variation in the energy balance of the tree sparrow in relation to migration. Auk 77:306–329
Willson ME, Harmeson JC (1973) Seed preferences and digestive efficiency of cardinals and song sparrows. Condor 75:225–234
Zbinden N (1980) Zur Verdaulichkeit und umsetzbarer Energie von Tetraoniden-Winternahrung und zum Erhaltungsbedarf des Birkhuhns (Tetrax tetrix) in Gefangenschaft mit Hinweisen auf Verdauungsversuche. Vogelwelt 101:1–18
Zimmermann JL (1965) Digestive efficiency and premigratory obesity in the dickeissel. Auk 82:278–279
Ziswiler V (1981) Spezialisation im Ernährungs- und Verdauungssystem der Wirbeltiere: Möglichkeiten und Limiten der Adaptation. Rev Suisse Zool 88:829–834
Ziswiler V, Farner DS (1972) Digestion and digestive system. In: Farner DS, King JR (eds) Avian Biology. Vol 2. Academic Press, London New York, pp 343–430
Author information
Authors and Affiliations
Rights and permissions
About this article
Cite this article
Bairlein, F. Efficiency of food utilization during fat deposition in the long-distance migratory garden warbler, Sylvia borin. Oecologia 68, 118–125 (1985). https://doi.org/10.1007/BF00379483
Received:
Issue Date:
DOI: https://doi.org/10.1007/BF00379483