Abstract
Although fat often supplies the major source of metabolic fuel during winter fasts of birds, this critical life-history trait is little studied by ecologists. In the dark-eyed junco Junco hyemalis, we have in a series of studies investigated the extent of plasticity in the winter fat reserve. Earlier (Rogers et al. 1993), we reported (1) a highly variable pattern of geographic variation in the winter fat reserve of junco populations in eastern North America, (2) disappearance of statistically significant interpopulation variation after experimental displacement to a common latitude, and (3) post-displacement temporal variation in the fat reserve. In analyses reported here, recent temperature, recent snowfall (a measure of short-term predictability of resources), season (perhaps reflecting continued exposure to unpredictable resources) and daylength explained spatial variation in the fat store. Recent temperature explained temporal variation in the fat reserves of groups of displaced juncos. These results suggest that platticity in a life-history trait has evolved in an uncertain winter environment. Through environment-dependent fattening, the costs of fat can be avoided during warm periods and at locations where fat confers little benefit, whereas benefits of fat can be quickly gained if weather conditions become harsh and snowfall might restrict food. Three types of winter fatteners probably exist among birds: responders (fatten in response to the proximate environment), predictors (fatten in anticipation of long-term environmental conditions), and responder-predictors (combination of both types of regulation). Because dark-eyed juncos select different winter latitudes as they age, we hypothesize that the nonbreeding component of the life-history of juncos includes the co-adapted plastic traits of winter fattening and post-breeding migration. Life-history theory can apparently explain important traits related to fitness in the nonbreeding period.
This is a preview of subscription content, log in via an institution to check access.
Similar content being viewed by others
References
Arcese PA, Smith JNM, Hochachka WM, Rogers CM, Ludwig D (1992) Stability, regulation, and the determination ofabundance in an insular song sparrow population. Ecology 73:805–822
Blem CR (1975) Geographic variation in wing-loading of the house sparrow. Wilson Bull 87:543–549
Blem CR (1990) Avian energy storage. In: Power DM (ed) Current ornithology, vol 7. Plenum, New York, pp 59–113
Blem CR, Shelor MH (1986) Multiple regression analyses of midwinter fattening of the white-throated sparrow. Can J Zool 64:2405–2411
Bradshaw AD (1965) Evolutionary significance of phenotypic plasticity in plants. Adv Genet 13:115–155
Brawn JD (1991) Environmental effects on variation and covariation in reproductive traits of western bluebirds. Oecologia 86:193–201
Brown KM (1985) Intraspecific variation in a pond snail: the roles of population divergence and phenotypic plasticity. Evolution 39:387–395
Caswell H (1983) Phenotypic plasticity in life-history traits: demographic effects and evolutionary consequences. Am Zool 23:35–46
Dawson WR, Marsh RL (1986) Winter fattening in the American goldfinch and the possible role of temperature in its regulation. Physiol Zool 59:357–368
Ekman J, Hake A (1990) Monitoring starvation risk: adjustments of body reserves in greenfinches (Carduelis chloris L.) during periods of unpredictable foraging success. Behav Ecol 1:62–67
Evans PR (1969) Winter fat deposition and overnight survival of yellow buntings (Emberiza citrinella). J Anim Ecol 38:415–423
Ford NB, Siegel RA (1989) Phenotypic plasticity in reproductive traits: evidence from a viviparous snake. Ecology 70:1768–1774
Haftorn S (1989) Seasonal and diurnal weight variation in titmice, based on analyses of individual birds. Wilson Bull 101:217–235
Houston AI, McNamara JM (1993) A theoretical investigation of the fat reserves and mortality levels of small birds in winter. Ornis Scand 24:205–219
Houston AS, Clark C, McNamara J, Mengel M (1988) Dynamic models in behavioural and evolutionary ecology. Nature 332:29–34
Jain S (1979) Adaptive strategies: polymorphism, plasticity, and homeostasis. In: Solbrig O, Jain S, Johnson GB, Raven PH (eds) Topics in plant population biology. Columbia University, New York, pp 160–187
Kaplan RH (1986) Developmental plasticity and maternal effects of reproductive characteristics in the frog Bombina orientalis. Oecologia 71:273–279
Kendeigh SC, Kontogiannis JE, Mazor A, Roth RR (1969) Environmental regulation of food intake by birds. Comp Biochem Physiol 31:941–957
Ketterson ED, Nolan V Jr (1976) Geographic variation and its climatic correlates in the sex ratio of eastern-wintering darkeyed juncos (Junco hyemalis hyemalis). Ecology 57:679–693
Ketterson ED, Nolan V Jr (1982) The role of migration and winter mortality in the life history of a temperate zone migrant, the dark-eyed junco, as determined from demographic analyses of winter populations. Auk 99:243–259
Ketterson ED, Nolan V Jr (1983) The evolution of differential migration. In: Johnston RF (ed) Current ornithology, vol 1. Plenum, New York, pp 357–401
King JR, Mewaldt LR (1981) Variation in body weight in Gambel's white-crowned sparrow in winter and spring: latitudinal and photoperiodic correlates. Auk 98:752–764
Lehikoinen E (1987) Seasonality of the daily weight cycle in wintering passerines and its consequences. Ornis Scand 18:216–226
Lessels CM, Cooke F, Rockwell RF (1989) Is there a trade-off between egg weight and clutch size in wild lesser snow geese (Anser c. caerulescens)? J Evol Biol 2:457–472
Levins R (1968) Evolution in changing environments. Princeton University Press, Princeton
Lima SL (1986) Predation risk and unpredictable feeding conditions: determinants of body mass in birds. Ecology 67:366–376
McNamara JM (1990) The starvation-predation trade-off and some behavioral and ecological consequences. In: Hughes RN (ed) Behavioural mechanisms of food selection. Springer, Berlin Heidelberg New York, pp 39–59
McNamara JM, Houston AI (1990) Starvation and predation in a patchy environment. In: Swingland I, Sharrocks B (eds) Living in a patchy environment. Oxford Univ Press, Oxford
Newman RA (1988) Developmental plasticity of Scaphiopus couchii tadpoles in an unpredictable environment. Ecology 70:1775–1787
Newton I (1969) Winter fattening in the bullfinch. Physiol Zool 42:96–107
Nolan V Jr, Ketterson ED (1983) An analysis of body mass, wing length, and visible fat deposits of dark-eyed juncos wintering at different latitudes. Wilson Bull 95:603–620
Nolan V Jr, Ketterson ED (1990) Timing of autumn migration and its relationship to winter distribution in dark-eyed juncos. Ecology 71:1267–1278
Nolan V Jr, Ketterson ED (1991) Experiments on winter site attachment in young dark-eyed juncos. Ethology 87:123–133
O'Connor RJ (1973) Patterns of weight change in the house sparrow, Passer domesticus (L.) In: Kendeigh SC, Pinowski J (eds) Productivity population dynamics and systematics of granivorous birds. PWN-Polish Scientific Publishers, Warszawa, p 111–125
Rogers CM (1987) Predation risk and fasting capacity: do wintering birds maintain optimal body mass? Ecology 68:1051–1061
Rogers CM (1992) An evaluation of the method of estimating body fat by quantifying visible subcutaneous fat. J Field Ornithol 62:349–356
Rogers CM, Rogers CJ (1990) Seasonal variation in daily mass amplitude and minimum body mass: a test of a recent model. Ornis Scand 21:105–114
Rogers CM, Smith JNM (1993) Predation risk and fasting capacity: local trade-offs in body mass of wintering birds? Ecology 74:1183–1190
Rogers CM, Theimer T, Nolan V Jr, Ketterson ED (1989) Does dominance behavior determine how far dark-eyed juncos migrate into their winter range? Anim Behav 37:498–506
Rogers CM, Smith JNM, Hochachka W, Cassidy A, Taitt MJ, Arcese P, Schluter D (1991) Spatial variation in winter survival of song sparrows Melospiza melodia. Ornis Scand 22:387–395
Rogers CM, Nolan V Jr, Ketterson ED (1993) Geographic variation in winter fat of dark-eyed juncos: displacement to a.common environment. Ecology 74 (in press)
Rotenberry JT, Wiens JA (1991) Weather and reproductive variation in shrubsteppe sparrows: a hierarchial analysis. Ecology 72:1325–1335
SAS Institute (1985) SAS user's guide: statistics, version 5. SAS Institute, Cary
Schlichting CD (1986) The evolution of phenotypic plasticity in plants. Annu Rev Ecol Syst 17:667–693
Schlichting CD (1989) Phenotypic integration and environmental change. BioScience 39:460–471
Sinervo B, Licht P (1991) Proximate constraints on the evolution of egg size, number, and total clutch mass in lizards. Science 252:1300–1302
Stearns SC (1976) Life history tactics: a review of the ideas. Q Rev Biol 51:3–47
Stearns SC (1989) The evolutionary significance of phenotypic plasticity. BioScience 39:436–445
US Environmental Data Service (1982–1984) Climatological data: Tennessee. Asheville, North Carolina
US Environmental Data Service (1982–1985) Climatological data: Indiana. Asheville, North Carolina
US Environmental Data Service (1982–1984) Climatological data: Michigan. Asheville, North Carolina
US Weather Bureau (1963) Climatography of the United States, no 84. Washington DC, Asheville, North Carolina
Weisberg S (1985) Applied linear regression, 2nd edn. Wiley, New York
Williams GC (1966) Adaptation and natural selection. Princeton University Press, Princeton
Wonnacot RJ, Wonnacot TH (1985) Introductory statistics, 4th edn. Wiley, New York
Author information
Authors and Affiliations
Rights and permissions
About this article
Cite this article
Rogers, C.M., Nolan, V. & Ketterson, E.D. Winter fattening in the dark-eyed junco: plasticity and possible interaction with migration trade-offs. Oecologia 97, 526–532 (1994). https://doi.org/10.1007/BF00325892
Received:
Accepted:
Issue Date:
DOI: https://doi.org/10.1007/BF00325892