Variation in Growth Drives the Duration of Parental Care: A Test of Ydenberg’s Model

Elliott, Kyle H.; Linnebjerg, Jannie Fries; Burke, Chantelle M.; Gaston, Anthony J.; Mosbech, Anders; Frederiksen, Morten; Merkel, Flemming

doi:10.1086/691097

Cited by 15 publications

(13 citation statements)

References 67 publications

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“…A third issue arises from the fact that diving parameters, and in particular the time allocation from which the IPQ is derived, may be influenced by other factors, so that the IPQ may not only reflect local prey conditions, but how the diver uses those prey conditions. This is supported by findings showing differences in IPQ between male and female common guillemots Uria aalge during the male-only parental care period, but no difference outside that period [25,26]. Here, differences in IPQ may reflect the fact that the males are under different pressures from females because of chickrearing duties.…”

Section: Potential Issues With the Index Of Patch Qualitysupporting

confidence: 60%

“…[ 26 ] ln( x ) ∈[−1, −0.2] chick-rearing n/a (IPQ of females > IPQ of males) Elliott et al . [ 25 ] Razorbill Alca torda ln( x ) ∈ [0.12, 0.16] incubation and chick-rearing IPQ independent of the frequency of dives in bout but decreased with dive-pause ratio of dive bouts (p.e. : −0.04 ± 0.01, ΔAIC = −10) IPQ increases with distance from the colony (p.e.…”

Section: Empirical Validations Of the Index Of Patch Qualitymentioning

confidence: 99%

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A critical evaluation of the index of patch quality

Fayet

Houston

2021

Proc. R. Soc. B.

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The inverse optimality approach can allow us to learn about an animal's environment by assuming their behaviour is optimal. This approach has been applied to animals diving underwater for food to produce the index of patch quality (IPQ), which aims to provide a proxy for prey abundance or quality in a foraging patch based on the animal's diving behaviour. The IPQ has been used in several empirical studies but has never been evaluated theoretically. Here, we discuss the strengths and weaknesses of the IPQ approach from a theoretical angle and review the empirical evidence supporting its use. We highlight several potential issues, in particular with the gain function—the function describing the energetic gain of an animal during a dive—used to calculate the IPQ. We investigate an alternative gain function which is appropriate in some cases, provide a new model based on this function, and discuss differences between the IPQ model and ours. We also find that there is little supporting empirical evidence justifying the general use of the IPQ and suggest future empirical validation methods which could help strengthen the case for the IPQ. Our findings have implications for the field of diving ecology and habitat assessment.

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Section: Potential Issues With the Index Of Patch Qualitysupporting

confidence: 60%

Section: Empirical Validations Of the Index Of Patch Qualitymentioning

confidence: 99%

A critical evaluation of the index of patch quality

Fayet

Houston

2021

Proc. R. Soc. B.

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“…Thickbilled murres are long-lived, and pairs produce a maximum of 1 chick annually, which leaves the colony when less than half grown accompanied by the male parent (Gaston & Jones 1998). Males provide postfledging parental care for several weeks (Elliott et al 2017). Many murre populations in the Atlantic Arctic are declining rapidly, particularly those in Svalbard, Iceland and a large part of Greenland, which mainly overwinter off southwest Greenland and around Iceland (Frederiksen et al 2016).…”

Section: Introductionmentioning

confidence: 99%

Spatial variation in vital rates and population growth of thick-billed murres in the Atlantic Arctic

Frederiksen

Descamps

Elliott

et al. 2021

Mar. Ecol. Prog. Ser.

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Understanding spatiotemporal variation in vital rates and population growth rates is a central aim of population ecology, and is critical to conservation of migratory species where different populations may spend the non-breeding season in sometimes widely separated areas. However, estimating those parameters and identifying the underlying drivers of variation for species migrating to remote areas is challenging. The thick-billed murre Uria lomvia is a colonial seabird with a pan-Arctic distribution. Previous studies have documented large-scale spatial variation in population growth in the species’ Atlantic range, with eastern populations declining and western populations being stable, and suggested that this variation was linked to conditions in the wintering areas. We analyse variation in breeding success and adult survival from colonies throughout the Atlantic range, construct region-specific stochastic population models, and compare model predictions to observed colony growth rates. Breeding success was uniformly high in Greenland and Iceland, lower and more variable in Spitsbergen, Bjørnøya and Hudson Bay, and low at Jan Mayen. Adult survival was average or high in all colonies during the 2010s. Observed colony growth rates were lower than modelled growth rates for most populations. This suggests that pre-breeding survival or breeding propensity must have been lower than assumed in many of these populations. Low pre-breeding survival could be linked to poor feeding conditions in fall and winter, possibly influenced by large-scale oceanographic variation. Our results support the idea that seabird populations not subject to breeder mortality due to anthropogenic causes are regulated mainly through variation in pre-breeding survival.

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“…This constrains their movements and hence their capacity to demonstrate IMSF. Additionally, reproductively successful males are accompanying a flightless chick as it departs the colony, which further limits their movement (Elliott et al., 2017; Harris & Wanless, 1990). Thus, it is not surprising that some populations exhibit IMSF only for females during autumn as these are not constrained by a dependent and flightless chick and have the possibility to move large distances after breeding and prior to moulting.…”

Section: Discussionmentioning

confidence: 99%

Individual migration strategy fidelity but no habitat specialization in two congeneric seabirds

Merkel

Descamps

Yoccoz

et al. 2020

Journal of Biogeography

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Aim In migratory species, individuals often use fixed and individual‐specific migration strategies, which we term individual migration strategy fidelity (IMSF). Our goal was to test if guillemots have flexible or fixed individual migration strategies (i.e. IMSF), if this behaviour is consistent across large parts of the genus’ range and if they were philopatric to geographical sites or a habitat feature. Location North Atlantic. Taxon Uria spp. Methods We quantified consistent individual differences in inter‐annual spatial distribution and habitat occupied throughout the non‐breeding period using a large geolocator tracking dataset of 729 adult seabirds breeding at 13 colonies across the Northeast Atlantic and repeatedly tracked up to 7 years over a 9‐year period. Additionally, we used a similarity index to calculate relative fidelity to either geographical sites or habitats and linear mixed‐effects models to assess persistence of spatial site fidelity over multiple years. Results Both guillemot species exhibited IMSF across a large part of the genus’ range which persisted over multiple years. Individuals of both species and almost all colonies showed fidelity to geographical sites and not to specific habitats. Main conclusions Guillemots show IMSF that is best explained by site familiarity (fidelity to specific sites) rather than habitat specialization (fidelity to specific habitats). In the context of rapidly changing environments, favourable habitats may permanently shift locations and hence species displaying IMSF driven by site familiarity—such as the genus Uria—may not be able to adjust their migration strategies sufficiently fast to sustain individual fitness and ensure population persistence.

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Variation in Growth Drives the Duration of Parental Care: A Test of Ydenberg’s Model

Cited by 15 publications

References 67 publications

A critical evaluation of the index of patch quality

A critical evaluation of the index of patch quality

Spatial variation in vital rates and population growth of thick-billed murres in the Atlantic Arctic

Individual migration strategy fidelity but no habitat specialization in two congeneric seabirds

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