scholarly journals The relative effects of pace of life‐history and habitat characteristics on the evolution of sexual ornaments: A comparative assessment

Evolution ◽  
2021 ◽  
Author(s):  
Will Sowersby ◽  
Simon Eckerström‐Liedholm ◽  
Piotr K. Rowiński ◽  
Julia Balogh ◽  
Stefan Eiler ◽  
...  
Keyword(s):  
Life History ◽  
Comparative Assessment ◽  
Habitat Characteristics ◽  
Sexual Ornaments ◽  
Pace Of Life

scholarly journals Habitat characteristics and life history explain reproductive seasonality in lagomorphs

2021 ◽  
Author(s):  
Sandra A. Heldstab
Keyword(s):  
Life History ◽  
Reproductive Output ◽  
Quantitative Measure ◽  
Habitat Characteristics ◽  
Comparative Approach ◽  
Mean Annual Temperature ◽  
Season Length ◽  
Reproductive Seasonality ◽  
Birth Season ◽  
Birth Seasonality

AbstractLagomorphs show extensive seasonal variation in their reproduction. However, the factors causing this large variation have so far mostly been investigated intraspecifically and therefore provide only some exemplary comparisons of lagomorph reproductive seasonality. The present study applies both a categorical description (birth season categories 1–5) and a quantitative measure (birth season length in months) to summarize the degree of birth seasonality in the wild of 69 lagomorph species. Using a comparative approach, I tested the influence of 13 factors, comprising six habitat, five life history and two allometric variables on birth season length in lagomorphs. Leporids mainly show non-seasonal birthing patterns with high intraspecific variation. Their opportunistic breeding strategy with high reproductive output and their large distribution areas across wide latitude and elevation ranges might be the reasons for this finding. Ochotonids reproduce strictly seasonally, likely because they live at northern latitudes, are high-altitude specialists, and occur in limited distribution areas. The most important factors associated with variation in lagomorph birth seasonality are mid-latitude, mean annual temperature and precipitation of a species’ geographical range and life history adaptations including fewer but larger litters in seasonal habitats. Birth seasons become shorter with increasing latitude, colder temperatures, and less precipitation, corresponding to the decreasing length of optimal environmental conditions. Leporid species with shorter breeding seasons force maternal resources into few large litters to maximise reproductive output while circumstances are favourable. Since allometric variables were only weakly associated with reproductive seasonality, life history adaptations and habitat characteristics determine birth seasonality in Lagomorpha.

scholarly journals Sex-specific pace-of-life syndromes

2019 ◽  
Vol 30 (4) ◽  
pp. 1096-1105 ◽  
Author(s):  
Joe A Moschilla ◽  
Joseph L Tomkins ◽  
Leigh W Simmons
Keyword(s):  
Life History ◽  
Metabolic Rate ◽  
Risk Taking ◽  
Life History Traits ◽  
Significant Negative Correlation ◽  
Covariance Structures ◽  
Field Crickets ◽  
Pace Of Life ◽  
Specific Trait ◽  
Trait Covariance

Abstract The pace-of-life syndrome (POLS) hypothesis considers an animal’s behavior, physiology, and life history as nonindependent components of a single integrated phenotype. However, frequent deviations from the expected correlations between POLS traits suggest that these relationships may be context, and potentially, sex dependent. To determine whether the sexes express distinct POLS trait covariance structures, we observed the behavior (mobility, latency to emerge from a shelter), physiology (mass-specific metabolic rate), and life history (life span, development time) of male and female Australian field crickets (Teleogryllus oceanicus). Path analysis modeling suggested that POLS trait covariation differed between the sexes. Although neither sex displayed the complete integration of traits predicted by the POLS hypothesis, females did display greater overall integration with a significant negative correlation between metabolic rate and risk-taking behavior but with life-history traits varying independently. In males, however, there was no clear association between traits. These results suggest that T. oceanicus do indeed display sex-specific trait covariance structures, emphasizing the importance of acknowledging sex in assessments of POLS.

Juvenile production variation in salmonids: population dynamics, habitat, and the role of spatial relationships

1998 ◽  
Vol 55 (S1) ◽  
pp. 191-200 ◽  
Author(s):  
John F Kocik ◽  
C Paola Ferreri
Keyword(s):  
Life History ◽  
Atlantic Salmon ◽  
Spatial Ecology ◽  
Spatial Scales ◽  
River System ◽  
Habitat Characteristics ◽  
Life History Stage ◽  
Growth And Survival ◽  
Juvenile Atlantic Salmon ◽  
Spatial Positioning

Anadromous Atlantic salmon (Salmo salar) exhibit a complex life history that requires the use of habitats that span several different temporal and spatial scales. While fisheries scientists have investigated the various elements of habitat and how they affect Atlantic salmon growth and survival, these studies typically focus on requisite requirements for a single life history stage. Current advances in our understanding of salmonid populations in lotic systems indicates that ignoring the spatial positioning of different habitats and dispersal capabilities of fish between them may affect estimates of habitat quality and production of juvenile Atlantic salmon. Using the concepts of juxtaposition and interspersion, we hypothesize that discrete functional habitat units (FHU) occur within river systems and that the spatial structure of FHU affects fish production. We present a method to delineate FHU using habitat maps, fish ecology, and spatial habitat characteristics. Utilizing a simulation model, we illustrate how modeling FHU structure of spawning and rearing habitat in a river system can improve our understanding of juvenile Atlantic salmon production dynamics. The FHU concept allows a flexible approach to more comprehensive analyses of the impacts of habitat alterations, seasonal habitat shifts, and spatial ecology of salmonids at various scales.

scholarly journals The metabolic pace of life histories across fishes

2020 ◽  
Author(s):  
Serena Wong ◽  
Jennifer S. Bigman ◽  
Nicholas K. Dulvy
Keyword(s):  
Life History ◽  
Metabolic Rate ◽  
Growth Performance ◽  
Body Mass ◽  
Life Histories ◽  
Life History Traits ◽  
Generation Length ◽  
Pace Of Life ◽  
Trade Offs ◽  
Maximum Body

AbstractAll life acquires energy through metabolic processes and that energy is subsequently allocated to life-sustaining functions such as survival, growth, and reproduction. Thus, it has long been assumed that metabolic rate is related to the life history of an organism. Indeed, metabolic rate is commonly believed to set the pace of life by determining where an organism is situated along a fast-slow life history continuum. However, empirical evidence of a relationship between metabolic rate and life histories is lacking, especially for ectothermic organisms. Here, we ask whether three life history traits – maximum body mass, generation length, and growth performance – explain variation in resting metabolic rate (RMR) across fishes. We found that growth performance, which accounts for the trade-off between growth rate and maximum body size, explained variation in RMR, yet maximum body mass and generation length did not. Our results suggest that measures of life history that encompass trade-offs between life history traits, rather than traits in isolation, explain variation in RMR across fishes. Ultimately, understanding the relationship between metabolic rate and life history is crucial to metabolic ecology and has the potential to improve prediction of the ecological risk of data-poor species.

scholarly journals Alternative Migratory Strategies Related to Life History Differences in the Walleye (Sander Vitreus)

2021 ◽  
Author(s):  
Graydon McKee ◽  
Rachael Hornsby ◽  
Friedrich Fischer ◽  
Erin S. Dunlop ◽  
Robert Mackereth ◽  
...  
Keyword(s):  
Life History ◽  
Acoustic Telemetry ◽  
Late Summer ◽  
Maximum Size ◽  
Individual Growth ◽  
Sander Vitreus ◽  
Differential Growth ◽  
Individual Behaviour ◽  
Pace Of Life ◽  
Average Maximum

Abstract BackgroundWhile Pace of Life Syndrome predicts behavioural differences between individuals with differential growth and survival, testing these predictions in nature is challenging due to difficulties with measuring individual behaviour in the field. However, recent advances in acoustic telemetry technology have facilitated measurements of individual behaviour at scales not previously possible in aquatic ecosystems. MethodsUsing a Walleye (Sander vitreus) population inhabiting Black Bay, Lake Superior, we examine whether life history characteristics differ between more and less mobile individuals as predicted by Pace of Life Syndrome. We tracked the movement of 192 individuals from 2016-2019 using an acoustic telemetry study, relating patterns in annual migratory behaviour to individual growth, and seasonal changes in optimal thermal-optical habitat. ResultsWe observed two consistent movement patterns in our study population — migratory individuals left Black Bay during late summer to early fall before returning to the bay, whereas residents remained within the bay year-round. The average maximum length of migrant Walleye was 5.5 cm longer than residents, and the sex ratios of Walleye caught during fall surveys was increasingly female-biased towards the mouth of Black Bay, suggesting that a majority of migrants were females. Further, Walleye occupancy outside of Black Bay was positively associated with increasing thermal-optical habitat. ConclusionsWalleye in Black Bay appear to conform to Pace of Life Syndrome, with more exploratory (migrant) individuals gaining increased fitness through increased maximum size, which, given size-dependent fecundity in this species, likely results in greater reproductive success (via greater egg deposition vs. non-migrants). Further, apparent environmental (thermal) controls on migration suggest that migratory Walleye (more so than residents) may be more sensitive to changing environmental conditions (e.g., warming climate) than residents.

Issues Based on Species Life History and Behavior

2021 ◽  
pp. 89-94
Author(s):  
Joseph A. Veech
Keyword(s):  
Life History ◽  
Habitat Use ◽  
Life Histories ◽  
Radio Telemetry ◽  
Spatial Scales ◽  
Habitat Associations ◽  
Habitat Characteristics ◽  
Habitat Analysis ◽  
The Individual ◽  
And Behavior

Species vary tremendously in their life histories and behavior. The particular life history traits and behavior of the focal species must be considered when designing a study to examine habitat associations. For some species, individuals use different areas (of the landscape or territory) for breeding and foraging. As such, the important characteristics for the foraging and breeding habitats may be different. The dramatically different life stages of some organisms (e.g., amphibians and some insects) often correspond to equally dramatic differences in habitat use between juveniles and adults. For some species, habitat use differs among seasons. Species that are highly mobile and have individuals that move around substantially on a daily or weekly basis are particularly challenging for a habitat analysis. For these species, the most efficient and appropriate study design may be one that tracks individuals (through radio-telemetry or GPS) and analyzes the environmental or habitat characteristics at locations where the individual has stopped, rather than trying to survey for the species in pre-established and insufficiently small survey plots. In addition, individual movement and the issues mentioned above may necessitate that environmental variables are measured and analyzed at multiple spatial scales.

Fuel for the pace of life: Baseline blood glucose concentration co-evolves with life-history traits in songbirds

2018 ◽  
Vol 33 (2) ◽  
pp. 239-249 ◽  
Author(s):  
Oldrich Tomasek ◽  
Lukas Bobek ◽  
Tereza Kralova ◽  
Marie Adamkova ◽  
Tomas Albrecht
Keyword(s):  
Life History ◽  
Blood Glucose ◽  
Glucose Concentration ◽  
Life History Traits ◽  
Blood Glucose Concentration ◽  
Pace Of Life

scholarly journals Heritability and genetic correlations of personality, life history and morphology in the grey mouse lemur ( Microcebus murinus )

2019 ◽  
Vol 6 (10) ◽  
pp. 190632 ◽  
Author(s):  
Pauline B. Zablocki-Thomas ◽  
Anthony Herrel ◽  
Caitlin J. Karanewsky ◽  
Fabienne Aujard ◽  
Emmanuelle Pouydebat
Keyword(s):  
Life History ◽  
Personality Traits ◽  
Maternal Effects ◽  
Morphological Traits ◽  
Life History Traits ◽  
Genetic Correlations ◽  
Microcebus Murinus ◽  
Phenotypic Traits ◽  
Pace Of Life ◽  
Sources Of Variation

The recent interest in animal personality has sparked a number of studies on the heritability of personality traits. Yet, how the sources variance these traits can be decomposed remains unclear. Moreover, whether genetic correlations with life-history traits, personality traits and other phenotypic traits exist as predicted by the pace-of-life syndrome hypothesis remains poorly understood. Our aim was to compare the heritability of personality, life-history and morphological traits and their potential genetic correlations in a small primate ( Microcebus murinus ). We performed an animal model analysis on six traits measured in a large sample of captive mouse lemurs ( N = 486). We chose two personality traits, two life-history traits and two morphological traits to (i) estimate the genetic and/or environmental contribution to their variance, and (ii) test for genetic correlations between these traits. We found modest narrow-sense heritability for personality traits, morphological traits and life-history traits. Other factors including maternal effects also influence the sources of variation in life-history and morphological traits. We found genetic correlations between emergence latency on the one hand and radius length and growth rate on the other hand. Emergence latency was also genetically correlated with birth weight and was influenced by maternal identity. These results provide insights into the influence of genes and maternal effects on the partitioning of sources of variation in personality, life-history and morphological traits in a captive primate model and suggest that the pace-of-life syndrome may be partly explained by genetic trait covariances.

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