Variance in animal longevity: contributions of heterogeneity and stochasticity

Hartemink, Nienke; Caswell, Hal

doi:10.1007/s10144-018-0616-7

Cited by 34 publications

(42 citation statements)

References 46 publications

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“…The enthusiasm for such models is growing in ecology. For instance, mixture models are increasingly used to uncover life-history tactics that may occur within a population (Authier et al 2012, Chevallier et al 2013, Fay et al 2016, Hamel et al 2017, 2018 and to partition the variance in lifetime demographic traits into components due to heterogeneity fixed at birth and heterogeneity generated by stochasticity during a life course (Hartemink et al 2017, Jenouvrier et al 2017, Hartemink and Caswell 2018. Joint models are used to assess the full co-variation among traits, thereby improving our understanding of positive and negative relationships among numerous traits (Cam et al 2002, Pavitt et al 2016, Careau and Wilson 2017, Hamel et al 2017.…”

Section: Methodological Developmentsmentioning

confidence: 99%

General conclusion to the special issue Moving forward on individual heterogeneity

Hamel

Gaillard

Yoccoz

et al. 2018

Oikos

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Section: Methodological Developmentsmentioning

confidence: 99%

General conclusion to the special issue Moving forward on individual heterogeneity

Hamel

Gaillard

Yoccoz

et al. 2018

Oikos

Self Cite

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“…We are pleased to announce that we publish the special feature "Evolutionary demography: the dynamic and broad intersection of ecology and evolution" that consists of 14 papers (Anderson 2018;Colleran and Snopkowski 2018;DeLong and Luhring 2018;Gimenez and Gaillard 2018;Hartemink and Caswell 2018;Horvitz et al 2018;Kellett and Shefferson 2018;Morita 2018;Nakahashi et al 2018;Nicol-Harper et al 2018;Shefferson et al 2018;Shyu and Caswell 2018;Tai and Noymer 2018;. Although a special feature usually consists of 4-8 papers, either original or review articles, if the number of collected articles is large enough, an entire special issue, comprised of only those articles, would be considered (this is the case of this issue).…”

Section: Special Featurementioning

confidence: 99%

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Noda

2018

Population Ecology

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“…The seventh to tenth papers deal with invertebrates and mammals, including hominids (Anderson 2018;Gimenez and Gaillard 2018;Hartemink and Caswell 2018;Nakahashi et al 2018). Hartemink and Caswell (2018) construct an age-stage classified projection matrix model to detect variance in longevity among individuals from 10 studies of invertebrates.…”

Section: How Do Ecology and Evolution Interact If We Reconsidermentioning

confidence: 99%

“…Hartemink and Caswell (2018) construct an age-stage classified projection matrix model to detect variance in longevity among individuals from 10 studies of invertebrates. They decompose the variation into the effects of heterogeneity among stage groups and stochasticity, and show that the differences in longevity among heterogeneity groups are on the order of 30% of the overall life expectancy.…”

Section: How Do Ecology and Evolution Interact If We Reconsidermentioning

confidence: 99%

The long and winding road of evolutionary demography: preface

Takada

Shefferson

2018

Population Ecology

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Fitness can be calculated using demographic parameters such as survival and fecundity, which are normally used to examine population dynamics in ecology. This concept is at the heart of Darwin's thinking on natural selection. Natural selection optimizes survival and fertility schedules through differential fitness, and these optimal schedules drive changes in population dynamics. Therefore, there must exist an interaction between ecology and evolution. One of the disciplines that focus on the interaction is "Evolutionary demography". It uses age-or stage-specific demographic parameters throughout the whole life history to explore the evolution of life histories. Data throughout the life history of a species is indispensable to study evolutionary demography. To this end, two large-scale databases of plant and animal life history are now available online, the COMPADRE Plant Matrix Database and the COMADRE Animal Matrix Database. We are now in a revolutionary era in the demographic research of plant and animal populations (including human populations). Many skills and approaches are needed to answer questions on evolutionary demography including bodies of theory and analytical toolkits. This special issue covers a wide array of subjects: (1) Demographic analysis of populations (including human populations) from the point of view of evolutionary ecology, (2) Meta-analysis using big databases of populations, (3) Eco-evolutionary studies at the population and/or community level and (4) Theoretical studies and the development of mathematical models of life history evolution. 14 collected papers are published to answer a variety of questions using original ideas, new tools, and big data.

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Variance in animal longevity: contributions of heterogeneity and stochasticity

Cited by 34 publications

References 46 publications

General conclusion to the special issue Moving forward on individual heterogeneity

General conclusion to the special issue Moving forward on individual heterogeneity

Highlight in this issue

The long and winding road of evolutionary demography: preface

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