Summary
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1.
Small passerine migrants achieve endurance flight while fasting, together with one of the highest mass-specific energy rates. Metabolic responses to flight and fasting were examined in three species of free-living migrants (Sylvia borin, Ficedula hypoleuca, Erithacus rubecula) by measuring plasma concentrations of glucose, uric acid, triglycerides, glycerol, free fatty acids (FFA), and β-hydroxybutyrate (β-OHB) in three main physiological situations (feeding, overnight fasting, nocturnal flight) and while changing between these situations.
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2.
Overnight-fasted birds showed low triglyceride and uric acid levels. Contrary to mammals, FFA and glycerol levels were not increased in agreement with published data on birds. The transition from feeding to fasting (post-feeding) was distinguished by a temporary rise in FFA and a drop in glucose levels.
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3.
Birds utilize fat during migratory flight, indicated by high levels of FFA, glycerol, and β-OHB. For the first time, high triglyceride levels were found in an exercising vertebrate. The use of protein during flight was demonstrated by high uric acid levels.
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4.
Birds kept inactive after flight showed a more pronounced reduction of the fat and protein utilization and post-exercise ketosis than naturally landed birds.
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5.
Differences among the three species in the metabolic pattern suggest that the garden warbler shows the greatest metabolic adaption to endurance flight, having the highest levels of fat metabolites and the highest body fat reserves.
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Abbreviations
- FAS :
-
overnight fasted
- FED :
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feeding
- FED30, FED90 :
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without food for 30 and 90 min, respectively
- FFA :
-
free fatty acids
- FLY :
-
flying
- FLY30, FLY60 :
-
inactive for 30 and 60 min, respectively, after flight
- LAN :
-
naturally landed after flight
- β-OHB :
-
β-hydroxybutyrate
References
Aschoff J, Pohl H (1970) Der Ruheumsatz von Vögeln als Funktion der Tageszeit und der Körpergröße. J Ornithol 111:38–47
Berthold P (1975) Migration: control and metabolic physiology. In: Farner DS, King JR (eds) Avian biology. Academic Press, New York, vol 5, pp 77–124
Biebach H (1990) Strategies of trans-Sahara migrants. In: Gwinner E (ed) Bird migration. Springer, Berlin Heidelberg New York, pp 352–367
Brackenbury J (1984) Physiological responses of birds to flight and running. Biol Rev 59:559–575
Bruderer B, Jenni L (1988) Strategies of bird migration in the area of the Alps. Acta XIX Int Congr Ornithol, pp 2150–2161
Bülow J (1988) Lipid mobilization and utilization. In: Poortmans JR (ed) Principles of exercise biochemistry (Med Sport Sci, vol 27) Karger, Basel, pp 140–163
Butler PJ, Woakes AJ (1990) The physiology of bird flights. In: Gwinner E (ed) Bird migration. Springer, Berlin Heidelberg New York, pp 300–318
Cerny F (1975) Protein metabolism during two hour ergometer exercise. In: Howald H, Poortmans JR (eds) Metabolic adaption to prolonged physical exercise, Birkhäuser, Basel, vol 7. pp 232–237
Cherel Y, Le Maho Y (1988) Changes in body mass and plasma metabolites during short-term fasting in the King Penguin. Condor 90:257–258
Cherel Y, Robin JP, Le Maho Y (1988a) Physiology and biochemistry of long-term fasting in birds. Can J Zool 66:159–166
Cherel Y, Robin JP, Walch O, Karmann H, Netchitailo P, Le Maho Y (1988b) Fasting in King Penguin: I. Hormonal and metabolic changes during breeding. Am J Physiol 254:R170-R177
Didier R, Remesy C, Demigne C (1983) Changes in glucose and lipid metabolism in starved or starved-refed Japanese quail (Coturnix coturnix japonica) in relation to fine structure of liver cells. Comp Biochem Physiol 74A:839–848
Dohm GL, Beeker RT, Israel RG, Tapscott EB (1986) Metabolic responses to exercise after fasting. J Appl Physiol 61:1363–1368
Dolny DG, Lemon PWR (1988) Effect of ambient temperature on protein breakdown during prolonged exercise. J Appl Physiol 64:550–555
Elia M, Zed C, Neale G, Livesey G (1987). The energy cost of triglyceride-fatty acid recycling in non-obese subjects after an overnight fast and four days of starvation. Metabolism 36:251–255
Evans PR (1972) The physiology and nutrition of Lesser Redpoll during moult and autumn migration. Proc XV Int Ornithol Congr, pp 642–643
Féry F, Balasse EO (1983) Ketone body turnover during and after exercise in overnight-fasted and starved humans. Am J Physiol 245:E318-E325
Féry F, Balasse EO (1986) Response of ketone body metabolism to exercise during transition from postabsorptive to fasted state. Am J Physiol 250:E495-E501
Frelin C (1974) Daily variations of serum glucose levels in moulting Redpolls Acanthis flammea and in migrating Robins Erithacus rubecula. Ornis Scand 5:83–86
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 Lond 167:293–306
Gorman ML, Milne H (1971) Seasonal changes in the adrenal steroid tissue of the Common Eider Somateria mollisima and its relation to organic metabolism in normal and oil-polluted birds. Ibis 113:218–228
Groebbels F (1930) Bausteine zu einer Physiologie und Histophysiologie des Zugvogels: I. Physiologische Untersuchungen an Helgoländer Zugvögeln. Z Vergl Physiol 12:682–702
Guppy M (1988) Limiting carbohydrate stores: alleviating the problem in the marathon runner, a hibernating lizard, and the neonate brain. Can J Zool 66:1090–1097
Havel RJ (1987) Lipid transport function of lipoproteins in blood plasma. Am J Physiol 253:E1-E5
Hurley BF, Nemeth PM, Martin III WH, Hagberg JM, Dalsky GP, Holloszy JO (1986) Muscle triglyceride utilization during exercise: effect of training. J Appl Physiol 60:562–567
Jeffrey DA, Peakall DB, Miller DS, Herzberg GR (1985) Blood chemistry changes in food-deprived herring gulls. Comp Biochem Physiol 81A:911–913
Jenni L (1984) Herbstzugmuster von Vögeln auf dem Col de Bretolet unter besonderer Berücksichtigung nachbrutzeitlicher Bewegungen. Ornithol Beob 81:183–213
Jenni L, Jenni-Eiermann S (1987) Body weight and energy reserves of bramblings in winter. Ardea 75:271–284
Jordano P (1987) Frugivory, external morphology and digestive system in mediterranean sylviid warblers Sylvia spp. Ibis 129:175–189
Keul J (1975) Muscle metabolism during long lasting exercise In: Howald H, Poortmans JR (eds) Metabolic adaption to prolonged physical exercise, vol 7. Birkhäuser, Basel, pp 31–42
Lamon-Fava S, McNamara JR, Farber HW, Hill NS, Schaefer EJ (1989) Acute changes in lipid, lipoprotein, apolipoprotein, and low-density lipoprotein particle size after an endurance triathlon. Metabolism 38:921–925
Langslow DR (1978) Gluconeogenesis in birds. Biochem Soc Trans 6:1148–1152
Liesen H, Korsten H, Hollmann W (1975) Effects of a marathon race on blood lipid constituents in younger and older athletes. In: Howald H, Poortmans JR (eds) Metabolic adaption to prolonged physical exercise, vol 7. Birkhäuser Basel, vol 7, pp 194–200
Lundgren BO, Kiessling K-H (1985) Seasonal variation in catabolic enzyme activities in breast muscle of some migratory birds. Oecologia 66:468–471
Lundgren BO, Kiessling K-H (1986) Catabolic enzyme activities in the pectoralis muscle of premigratory and migratory juvenile Reed Warblers Acrocephalus scirpaceus (Herm.). Oecologia 68:529–532
Le Maho Y, Vu Van Kha H, Koubi H, Dewasmes G, Girard J, Ferré P, Cagnard M (1981) Body composition, energy expenditure, and plasma metabolites in long-term fasting geese. Am J Physiol 241:E342-E354
Marsh RL (1981) Catabolic enzyme activities in relation to premigratory fattening and muscle hypertrophy in the gray catbird (Dumetella carolinensis). J Comp Physiol B 141:417–423
Marsh RL (1983) Adaptions of the gray catbird Dumetella carolinensis to long distance migration: energy stores and substrate concentrations in plasma. Auk 100:170–179
Marsh RL (1984) Adaptions of the gray catbird Dumetella carolinensis to long-distance migration: flight muscle hypertrophy associated with elevated body mass. Physiol Zool 57:105–117
Masman D, Klaassen M (1987) Energy expenditure during free flight in trained and free-living Eurasian Kestrels (Falco tinnunculus) Auk 104:603–616
Migliorini RH, Linder C, Moura JL, Veiga JAS (1973) Gluconeogenesis in a carnivorous bird (black vulture). Am J Physiol 225:1389–1392
Mori JG and George JC (1978) Seasonal changes in serum levels of certain metabolites, uric acid and calcium in the migratory Canada goose (Branta canadiensis interior). Comp Biochem Physiol 59B:263–269
Newsholme EA (1988) Application of knowledge of metabolic integration to the problem of metabolic limitations in sprints, middle distance and marathon running. In: Poortmans JR (ed) Principles of exercise biochemistry. (Med Sport Sci, vol 27) Karger, Basel, pp 194–211
Paul P (1975) Effects of long lasting physical exercise and training on lipid metabolism. In: Howald H, Poortmans JR (eds) Metabolic adaption to prolonged physical exercise, vol 7. Birkhäuser, Basel, pp 156–193
Pennycuik CJ (1975) Mechanics of flight. In: Farner DS, King JR (eds) Avian biology, vol 5. Academic Press, New York, pp 1–75
Piersma T (1990) Pre-migratory “fattening” usually involves more than the deposition of fat alone. Ringing and Migration 11:113–115
Piersma T, Jukema J (1990) Budgeting the flight of a long-distance migrant: changes in nutrient reserve levels of bar-tailed godwits at successive spring staging sites. Ardea 78:315–337
Pilo B, George JC (1983) Diurnal and seasonal variation in liver glycogen and fat in relation to metabolic status of liver and M. pectoralis in the migratory starling, Sturnus roseus, wintering in India. Comp Biochem Physiol 74A:601–604
Poortmans JR (1988) Protein metabolism. In: Poortmans JR (ed) Principles of exercise biochemistry. (Med Sport Sci, vol 27) Karger, Basel, pp 164–193
Ramenofsky M (1990) Fat storage and fat metabolism in relation to migration. In: Gwinner E (ed) Bird migration. Springer, Berlin Heidelberg New York, pp 214–231
Reinecke KJ, Stone TL, Owen RB Jr (1982) Seasonal carcass composition and energy balance of female black ducks in Maine. Condor 84:420–426
Robin JP, Frain M, Sardet C, Groscolas R, Le Maho Y (1988) Protein and lipid utilization during long-term fasting in emperor penguins. Am J Physiol 254:R61-R68
Robinson DS (1970) The function of the plasma triglycerides in fatty acid transport. In: Florkin M, Stotz EH (eds) Comprehensive biochemistry, vol 18. Elsevier, Amsterdam London New York, pp 51–105
Robinson AM, Williamson DH (1980) Physiological roles of ketone bodies as substrates in mammalian tissues. Physiol Rev 60:143–187
Rothe H-J, Biesel W, Nachtigall W (1987) Pigeon flight in a wind tunnel: II. Gas exchange and power requirements. J Comp Physiol B 157:99–109
Sahlin K, Katz A (1988) Purine nucleotide metabolism. In: Poortmans JR (ed) Principles of exercise biochemistry. Med Sport Sci, Karger, Basel, vol 27, pp 120–139
Scow RO, Chernick SS (1970) Mobilization, transport, and utilization of free fatty acids. In: Florkin M, Stotz EH (eds) Comprehensive biochemistry, vol 18. Elsevier, Amsterdam London New York, pp 19–50
Sokal RR, Rohlf FJ (1981) Biometry, 2nd edn. Freeman, San Francisco
Stevenson J (1933) Experiments on the digestion of food by birds. Wilson Bull 45:155–167
Swain SD (1987) Overnight changes in circulating energy substrate concentrations in the vesper sparrow (Pooecetes gramineus). Comp Biochem Physiol 86A:439–441
Veiga JAS, Roselino ES, Migliorini RH (1978) Fasting, adrenalectomy, and gluconeogenesis in the chicken and a carnivorous bird. Am J Physiol 234:R115-R121
Ward P, Jones PJ (1977) Pre-migratory fattening of three races of the red-billed quelea Quelea quelea, an intra-tropical migrant. J Zool 181:43–56
Wolfe RR (1982) Stable isotope approaches for study of energy metabolism. Fed Proc 41:2692–2697
Wolfe RR, Klein S, Carraro F, Weber JM (1990) Role of triglyceride-fatty acid cycle in controlling fat metabolism in humans during and after exercise. Am J Physiol 258:E382-E389
Zwarts L, Ens BJ, Kersten M, Piersma T (1990) Moult, mass, and flight range of waders ready to take off for long-distance migrations. Ardea 78:339–364
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Jenni-Eiermann, S., Jenni, L. Metabolic responses to flight and fasting in night-migrating passerines. J Comp Physiol B 161, 465–474 (1991). https://doi.org/10.1007/BF00257901
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DOI: https://doi.org/10.1007/BF00257901