TIME-SPECIFIC VARIATION IN PASSERINE NEST SURVIVAL: NEW INSIGHTS INTO OLD QUESTIONS

Understanding nest survival is critical to bird conservation and to studies of avian life history. Nest survival likely varies with nest age and date, but until recently researchers had only limited tools to efficiently address those sources of variability. Beginning with Mayfield (1961), many resea...

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Bibliographic Details
Published in:The Auk 2005-04, Vol.122 (2), p.661-672
Main Authors: Grant, Todd A, Shaffer, Terry L, Madden, Elizabeth M, Pietz, Pamela J
Format: Article
Language:English
Subjects:
Animal nesting
Animal populations
Animal reproduction
Bird nesting
Birds
Brood rearing
Clay
Clay-colored Sparrow
Comparative analysis
Eggs
Incubation
Life history
logistic exposure
nest survival
Nesting
Oviposition
Pooecetes gramineus
Predation
Predator-prey interactions
Predators
Sparrows
Spizella pallida
Survival
Survival analysis
Survival rates
Vesper Sparrow
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Summary:Understanding nest survival is critical to bird conservation and to studies of avian life history. Nest survival likely varies with nest age and date, but until recently researchers had only limited tools to efficiently address those sources of variability. Beginning with Mayfield (1961), many researchers have averaged survival rates within time-specific categories (e.g. egg and nestling stages; early and late nesting dates). However, Mayfield’s estimator assumes constant survival within categories, and violations of that assumption can lead to biased estimates. We used the logistic-exposure method to examine nest survival as a function of nest age and date in Clay-colored Sparrows (Spizella pallida) and Vesper Sparrows (Pooecetes gramineus) breeding in north-central North Dakota. Daily survival rates increased during egg laying, decreased during incubation to a low shortly after hatch, and then increased during brood rearing in both species. Variation in survival with nest age suggests that traditional categorical averaging using Mayfield’s or similar methods would have been inappropriate for this study; similar variation may bias results of other studies. Nest survival also varied with date. For both species, survival was high during the peak of nest initiations in late May and early June and declined throughout the remainder of the nesting season. On the basis of our results, we encourage researchers to consider models of nest survival that involve continuous time-specific explanatory variables (e.g. nest age or date). We also encourage researchers to document nest age as precisely as possible (e.g. by candling eggs) to facilitate age-specific analyses. Models of nest survival that incorporate time-specific information may provide insights that are unavailable from averaged data. Determining time-specific patterns in nest survival may improve our understanding of predator-prey interactions, evolution of avian life histories, and aspects of population dynamics that are critical to bird conservation.
ISSN:0004-8038
1938-4254
2732-4613
DOI:10.1642/0004-8038(2005)122[0661:TVIPNS]2.0.CO;2