Spelling suggestions: "subject:"american kestrel"" "subject:"american mestrel""
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The use of tarsal scale patterns to identify individual birds of preyPalma, Cristián R. (Cristián Ricardo) January 1996 (has links)
No description available.
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Winter territoriality and predation ecology of American Kestrels (Falco sparverius) in southcentral Florida /Smallwood, John A. January 1987 (has links)
No description available.
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Effects of co-administration of fluoride and aluminum on the metabolism of these two ions in the American kestrel (Falco sparverius)Chu, Jee Yan January 1992 (has links)
No description available.
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Cryopreservation of semen of the American kestrel Falco sparveriusBrock, M. Kelly. January 1986 (has links)
No description available.
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Adrenocortical function in postnatally developing American kestrels (Falco sparverius)Love, Oliver Patrick. January 2001 (has links)
This project investigated postnatal development of the adrenocortical function in captive American kestrels (Falco sparverius) employing measurements of basal and stress-induced levels of corticosterone at specific developmental stages. Chicks aged 10-days exhibited partially functioning adrenocortical systems with baseline levels comparable to adults. The ability to respond to external stressors increased through postnatal development and by the age of 22 days, stress-induced maximal levels of corticosterone were indistinguishable from those of one-year old adults, and levels of 28-day old birds were significantly higher than these adults. In addition, baseline and maximum stress-induced levels of corticosterone at all ages were significantly higher in first-hatched chicks than all other siblings and these effects grew stronger through development. These results suggest that the brain-pituitary-adrenal axis in this semi-altricial species is (1) already partially developed in young chicks and (2) only becomes fully functional when behavioral and neuromuscular development is nearly complete. Furthermore, results from this study suggest that hatching asynchrony has an effect on this variation in stress-induced maximal levels of corticosterone during the latter half of postnatal development, with a higher degree of hatching asynchrony leading to larger disparity in adrenocortical function between first- and fourth-hatched chicks. This adrenocortical disparity resulting from female-mediated hatching asynchrony may potentially lead to both brood-reduction and brood survival under diametric food conditions, ensuring that the female's reproductive fitness is maximized in varying habitats. Variation of adrenocortical function among siblings may increase female efficiency in raising a brood of fit chicks, maximizing her reproductive success.
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Adrenocortical function in postnatally developing American kestrels (Falco sparverius)Love, Oliver Patrick. January 2001 (has links)
No description available.
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Effects of electric and magnetic fields on selected physiological and reproductive parameters of American kestrelsFernie, Kimberly J. January 1998 (has links)
No description available.
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Fenthion as a secondary poisoning hazard to American kestrelsHunt, Katherine A. (Katherine Anna) January 1990 (has links)
The potential of fenthion to act as a secondary poisoning hazard to birds of prey was investigated using American kestrels (Falco sparverius) and house sparrows (Passer domesticus) as a representative model of a naturally occurring predator-prey interaction. Kestrels were presented with live sparrows previously exposed to perches containing Rid-A-Bird 1100$ sp circler$ solution (Rid-A-Bird, Inc., Muscatine, IA), 11% fenthion active ingredient, under simulated field conditions. All 14 kestrels tested died following ingestion of fenthion-exposed sparrows. Decreased brain cholinesterase activity and residue analyses of kestrel gastro-intestinal samples confirmed secondary fenthion poisoning. / Prey selection trials were conducted in the laboratory to determine the response of kestrels to a mixed flock of contaminated and uncontaminated sparrows. Kestrels captured fenthion-exposed prey significantly more often (12 out of 15 trials) than normal, unexposed prey. / These results suggest that avian predators and scavengers in the wild are at risk from contact with fenthion-exposed prey in areas where Rid-A-Bird perches are in use.
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Determination of linkage and degree of relatedness in a captive population of American kestrels using DNA fingerprintingCunningham, Heather V. January 1995 (has links)
DNA fingerprinting was used to assess levels of genetic variation within the captive colony of pedigreed American kestrels (Falco sparverius) which have been maintained for over twenty years at the Avian Science and Conservation Centre of McGill University. Several instances of apparent linkage and allelism were observed. The high probability of fortuitous co-segregation of parental bands as if linked or allelic resulting from the small number of offspring was most likely responsible. Otherwise, the kestrel fingerprints displayed germ-line stability and high levels of heterozygosity characteristic of other species. A positive linear and quasi-linear relationship was found between pedigree-based and DNA fingerprint-based relatedness coefficients. High levels of genetic variation and minimal inbreeding were detected via genetic analyses. Genetic similarity coefficients between colony-bred and free-ranging American kestrels were not significantly different (P $>$ 0.5), indicating minimal genetic drift within the colony. Managed mating combined with immigration of new members into the breeding pool can maintain genetic diversity within a captive population of 200 to 300 American kestrels for a long term management scale. The captive-bred kestrel population can be fully exploited for general research, management and care techniques and as a genetic and demographic reservoir.
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Effects of electric and magnetic fields on selected physiological and reproductive parameters of American kestrelsFernie, Kimberly J. January 1998 (has links)
Birds nest under electric and magnetic fields (EMFs) generated by transmission liners which may affect their reproductive success and/or melatonin governing their circadian and circannual cycles. Over two years, captive kestrels were used to determine whether EMFs affect their plasma melatonin concentrations and their reproductive success. EMFs were equivalent to that which wild kestrels are exposed to while nesting under 735 kV transmission fines, and daily exposure used in the captive study (88--98% time budget) was potentially equivalent to that of wild kestrels (90% X, 80% X). Captive kestrels were housed in control or EMF conditions to determine short-term (one season; S-EMF) and longer-term EMF (two seasons; L-EMF) effects. / Plasma melatonin in adult EMF males was suppressed at 42 d and elevated at 70 d of EMF exposure compared to controls. Melatonin levels in EMF males at mid-season were similar to controls at season's end, suggesting a seasonal phase-shift. Melatonin was suppressed in L-EMF fledgling birds but not in adult females or nudes (1995) at 70 d. Plasm melatonin, higher in adult males than females at 70 d post-pairing, was not directly associated with body mass changes in kestrels. / Captive EMF birds were more active and alert but groomed less often than controls. EMF exposure affected reproductive success of kestrels. Fertility and fledging success were higher, and hatching success lower in S-EMF clutches. Hatching success was higher, but fledging success lower in L-EMF clutches. In S-EMF clutches, mean egg volume and mass were greater, eggs had slightly more albumen but thinner eggshells, and embryos were larger than controls. L-EMF hatchlings were heavier than controls. / The melatonin results for male kestrels indicate that kestrels perceive EMFs as light, thus altering their photoperiod. Photoperiodic manipulations advance molt onset, which is associated with increased body mass in male kestrels. S-EMF males were heavier at 56 d of exposure when molt began, but this was unlikely related to feed intake winch was unchanged. EMF exposure had no effect on body mass and pectoral muscle scores of reproducing females. The sexually-dimorphic response in body mass and melatonin concentrations suggests that male kestrels may be more sensitive to EMF exposure than females.
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