Rethinking "normal": The role of stochasticity in the phenology of a synchronously breeding seabird

1. Phenoiogical changes have been observed in a variety of systems over the past century. There is concern that, as a consequence, ecological interactions are becoming increasingly mismatched in time, with negative consequences for ecological function. 2. Significant spatial heterogeneity (inter-sit...

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Veröffentlicht in:	The Journal of animal ecology 2018-05, Vol.87 (3), p.682-690
Hauptverfasser:	Youngflesh, Casey, Jenouvrier, Stephanie, Hinke, Jefferson T., DuBois, Lauren, St. Leger, Judy, Trivelpiece, Wayne Z., Trivelpiece, Susan G., Lynch, Heather J.
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Sprache:	eng
Schlagworte:	Adélie penguin Age Factors Animals Animals, Wild - physiology Animals, Zoo - physiology Annual variations Antarctic Regions Antarctica Aquatic birds Bayesian hierarchical model Breeding California Captivity Climate Change coloniality Demographics Ecological function Environmental conditions Environmental indicators Heterogeneity Nesting Behavior phenological mismatch Phenology Population ecology Populations Pygoscelis adeliae Random noise Social facilitation Spatial heterogeneity Spheniscidae - physiology Stochastic Processes Stochasticity synchrony Time Factors Variability
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container_title	The Journal of animal ecology
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creator	Youngflesh, Casey Jenouvrier, Stephanie Hinke, Jefferson T. DuBois, Lauren St. Leger, Judy Trivelpiece, Wayne Z. Trivelpiece, Susan G. Lynch, Heather J.
description	1. Phenoiogical changes have been observed in a variety of systems over the past century. There is concern that, as a consequence, ecological interactions are becoming increasingly mismatched in time, with negative consequences for ecological function. 2. Significant spatial heterogeneity (inter-site) and temporal variability (inter-annual) can make it difficult to separate intrinsic, extrinsic and stochastic drivers of phenoiogical variability. The goal of this study was to understand the timing and variability in breeding phenology of Adélie penguins under fixed environmental conditions and to use those data to identify a "null model" appropriate for disentangling the sources of variation in wild populations. 3. Data on clutch initiation were collected from both wild and captive populations of Adélie penguins. Clutch initiation in the captive population was modelled as a function of year, individual and age to better understand phenoiogical patterns observed in the wild population. 4. Captive populations displayed as much inter-annual variability in breeding phenology as wild populations, suggesting that variability in breeding phenology is the norm and thus may be an unreliable indicator of environmental forcing. The distribution of clutch initiation dates was found to be moderately asymmetric (right skewed) both in the wild and in captivity, consistent with the pattern expected under social facilitation. 5. The role of stochasticity in phenoiogical processes has heretofore been largely ignored. However, these results suggest that inter-annual variability in breeding phenology can arise independent of any environmental or demographic drivers and that synchronous breeding can enhance inherent stochasticity. This complicates efforts to relate phenoiogical variation to environmental variability in the wild. Accordingly, we must be careful to consider random forcing in phenoiogical processes, lest we fit models to data dominated by random noise. This is particularly true for colonial species where breeding synchrony may outweigh each individual's effort to time breeding with optimal environmental conditions. Our study highlights the importance of identifying appropriate null models for studying phenology.
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Phenoiogical changes have been observed in a variety of systems over the past century. There is concern that, as a consequence, ecological interactions are becoming increasingly mismatched in time, with negative consequences for ecological function. 2. Significant spatial heterogeneity (inter-site) and temporal variability (inter-annual) can make it difficult to separate intrinsic, extrinsic and stochastic drivers of phenoiogical variability. The goal of this study was to understand the timing and variability in breeding phenology of Adélie penguins under fixed environmental conditions and to use those data to identify a "null model" appropriate for disentangling the sources of variation in wild populations. 3. Data on clutch initiation were collected from both wild and captive populations of Adélie penguins. Clutch initiation in the captive population was modelled as a function of year, individual and age to better understand phenoiogical patterns observed in the wild population. 4. Captive populations displayed as much inter-annual variability in breeding phenology as wild populations, suggesting that variability in breeding phenology is the norm and thus may be an unreliable indicator of environmental forcing. The distribution of clutch initiation dates was found to be moderately asymmetric (right skewed) both in the wild and in captivity, consistent with the pattern expected under social facilitation. 5. The role of stochasticity in phenoiogical processes has heretofore been largely ignored. However, these results suggest that inter-annual variability in breeding phenology can arise independent of any environmental or demographic drivers and that synchronous breeding can enhance inherent stochasticity. This complicates efforts to relate phenoiogical variation to environmental variability in the wild. Accordingly, we must be careful to consider random forcing in phenoiogical processes, lest we fit models to data dominated by random noise. 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Phenoiogical changes have been observed in a variety of systems over the past century. There is concern that, as a consequence, ecological interactions are becoming increasingly mismatched in time, with negative consequences for ecological function. 2. Significant spatial heterogeneity (inter-site) and temporal variability (inter-annual) can make it difficult to separate intrinsic, extrinsic and stochastic drivers of phenoiogical variability. The goal of this study was to understand the timing and variability in breeding phenology of Adélie penguins under fixed environmental conditions and to use those data to identify a "null model" appropriate for disentangling the sources of variation in wild populations. 3. Data on clutch initiation were collected from both wild and captive populations of Adélie penguins. Clutch initiation in the captive population was modelled as a function of year, individual and age to better understand phenoiogical patterns observed in the wild population. 4. Captive populations displayed as much inter-annual variability in breeding phenology as wild populations, suggesting that variability in breeding phenology is the norm and thus may be an unreliable indicator of environmental forcing. The distribution of clutch initiation dates was found to be moderately asymmetric (right skewed) both in the wild and in captivity, consistent with the pattern expected under social facilitation. 5. The role of stochasticity in phenoiogical processes has heretofore been largely ignored. However, these results suggest that inter-annual variability in breeding phenology can arise independent of any environmental or demographic drivers and that synchronous breeding can enhance inherent stochasticity. This complicates efforts to relate phenoiogical variation to environmental variability in the wild. Accordingly, we must be careful to consider random forcing in phenoiogical processes, lest we fit models to data dominated by random noise. This is particularly true for colonial species where breeding synchrony may outweigh each individual's effort to time breeding with optimal environmental conditions. 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Phenoiogical changes have been observed in a variety of systems over the past century. There is concern that, as a consequence, ecological interactions are becoming increasingly mismatched in time, with negative consequences for ecological function. 2. Significant spatial heterogeneity (inter-site) and temporal variability (inter-annual) can make it difficult to separate intrinsic, extrinsic and stochastic drivers of phenoiogical variability. The goal of this study was to understand the timing and variability in breeding phenology of Adélie penguins under fixed environmental conditions and to use those data to identify a "null model" appropriate for disentangling the sources of variation in wild populations. 3. Data on clutch initiation were collected from both wild and captive populations of Adélie penguins. Clutch initiation in the captive population was modelled as a function of year, individual and age to better understand phenoiogical patterns observed in the wild population. 4. Captive populations displayed as much inter-annual variability in breeding phenology as wild populations, suggesting that variability in breeding phenology is the norm and thus may be an unreliable indicator of environmental forcing. The distribution of clutch initiation dates was found to be moderately asymmetric (right skewed) both in the wild and in captivity, consistent with the pattern expected under social facilitation. 5. The role of stochasticity in phenoiogical processes has heretofore been largely ignored. However, these results suggest that inter-annual variability in breeding phenology can arise independent of any environmental or demographic drivers and that synchronous breeding can enhance inherent stochasticity. This complicates efforts to relate phenoiogical variation to environmental variability in the wild. Accordingly, we must be careful to consider random forcing in phenoiogical processes, lest we fit models to data dominated by random noise. 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subjects	Adélie penguin Age Factors Animals Animals, Wild - physiology Animals, Zoo - physiology Annual variations Antarctic Regions Antarctica Aquatic birds Bayesian hierarchical model Breeding California Captivity Climate Change coloniality Demographics Ecological function Environmental conditions Environmental indicators Heterogeneity Nesting Behavior phenological mismatch Phenology Population ecology Populations Pygoscelis adeliae Random noise Social facilitation Spatial heterogeneity Spheniscidae - physiology Stochastic Processes Stochasticity synchrony Time Factors Variability
title	Rethinking "normal": The role of stochasticity in the phenology of a synchronously breeding seabird
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