The Role of Temperature in Transmission of Zoonotic Arboviruses

We reviewed the literature on the role of temperature in transmission of zoonotic arboviruses. Vector competence is affected by both direct and indirect effects of temperature, and generally increases with increasing temperature, but results may vary by vector species, population, and viral strain. Temperature additionally has a significant influence on life history traits of vectors at both immature and adult life stages, and for important behaviors such as blood-feeding and mating. Similar to vector competence, temperature effects on life history traits can vary by species and population. Vector, host, and viral distributions are all affected by temperature, and are generally expected to change with increased temperatures predicted under climate change. Arboviruses are generally expected to shift poleward and to higher elevations under climate change, yet significant variability on fine geographic scales is likely. Temperature effects are generally unimodal, with increases in abundance up to an optimum, and then decreases at high temperatures. Improved vector distribution information could facilitate future distribution modeling. A wide variety of approaches have been used to model viral distributions, although most research has focused on the West Nile virus. Direct temperature effects are frequently observed, as are indirect effects, such as through droughts, where temperature interacts with rainfall. Thermal biology approaches hold much promise for syntheses across viruses, vectors, and hosts, yet future studies must consider the specificity of interactions and the dynamic nature of evolving biological systems.

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Hormones and Behavior

The Oxford Handbook of Evolutionary Psychology and Behavioral Endocrinology ◽

10.1093/oxfordhb/9780190649739.013.2 ◽

2019 ◽

pp. 11-26

Author(s):

Maren N. Vitousek ◽

Laura A. Schoenle

Keyword(s):

Life History ◽

Life Histories ◽

Life History Traits ◽

Developmental Plasticity ◽

Endocrine System ◽

Phenotypic Traits ◽

Social Environments ◽

Trade Offs ◽

And Behavior

Hormones mediate the expression of life history traits—phenotypic traits that contribute to lifetime fitness (i.e., reproductive timing, growth rate, number and size of offspring). The endocrine system shapes phenotype by organizing tissues during developmental periods and by activating changes in behavior, physiology, and morphology in response to varying physical and social environments. Because hormones can simultaneously regulate many traits (hormonal pleiotropy), they are important mediators of life history trade-offs among growth, reproduction, and survival. This chapter reviews the role of hormones in shaping life histories with an emphasis on developmental plasticity and reversible flexibility in endocrine and life history traits. It also discusses the advantages of studying hormone–behavior interactions from an evolutionary perspective. Recent research in evolutionary endocrinology has provided insight into the heritability of endocrine traits, how selection on hormone systems may influence the evolution of life histories, and the role of hormonal pleiotropy in driving or constraining evolution.

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The Ecology of Stress: linking life-history traits with physiological control mechanisms in free-living guanacos

PeerJ ◽

10.7717/peerj.2640 ◽

2016 ◽

Vol 4 ◽

pp. e2640 ◽

Cited By ~ 4

Author(s):

Ramiro J.A. Ovejero Aguilar ◽

Graciela A. Jahn ◽

Mauricio Soto-Gamboa ◽

Andrés J. Novaro ◽

Pablo Carmanchahi

Keyword(s):

Life History ◽

Seasonal Variation ◽

Reproductive Success ◽

Hpa Axis ◽

Life History Traits ◽

Mating Period ◽

Entire Study ◽

Non Invasive ◽

Animal Populations

BackgroundProviding the context for the evolution of life-history traits, habitat features constrain successful ecological and physiological strategies. In vertebrates, a key response to life’s challenges is the activation of the Stress (HPA) and Gonadal (HPG) axes. Much of the interest in stress ecology is motivated by the desire to understand the physiological mechanisms in which the environment affects fitness. As reported in the literature, several intrinsic and extrinsic factors affect variability in hormone levels. In both social and non-social animals, the frequency and type of interaction with conspecifics, as well as the status in social species, can affect HPA axis activity, resulting in changes in the reproductive success of animals. We predicted that a social environment can affect both guanaco axes by increasing the secretion of testosterone (T) and Glucocorticoid (GCs) in response to individual social interactions and the energetic demands of breeding. Assuming that prolonged elevated levels of GCs over time can be harmful to individuals, it is predicted that the HPA axis suppresses the HPG axis and causes T levels to decrease, as GCs increase.MethodsAll of the data for individuals were collected by non-invasive methods (fecal samples) to address hormonal activities. This is a novel approach in physiological ecology because feces are easily obtained through non-invasive sampling in animal populations.ResultsAs expected, there was a marked adrenal (p-value = .3.4e−12) and gonadal (p-value = 0.002656) response due to seasonal variation inLama guanicoe. No significant differences were found in fecal GCs metabolites between males/females*season for the entire study period (p-value = 0.2839). Despite the seasonal activity variation in the hormonal profiles, our results show a positive correlation (p-value = 1.952e−11, COR = 0.50) between the adrenal and gonadal system. The marked endocrine (r2 = 0.806) and gonad (r2 = 0.7231) response due to seasonal variation in male guanaco individuals highlights the individual’s energetic demands according to life-history strategies. This is a remarkable result because no inhibition was found between the axes as theory suggests. Finally, the dataset was used to build a reactive scope model for guanacos.DiscussionGuanacos cope with the trade-off between sociability and reproductive benefits and costs, by regulating their GCs and T levels on a seasonal basis, suggesting an adaptive role of both axes to different habitat pressures. The results presented here highlight the functional role of stress and gonad axes on a critical phase of a male mammal’s life—the mating period—when all of the resources are at the disposal of the male and must be used to maximize the chances for reproductive success.

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Evolutionary Responses of Invertebrates to Global Climate Change: the Role of Life-History Trade-Offs and Multidecadal Climate Shifts

Global Climate Change and Terrestrial Invertebrates ◽

10.1002/9781119070894.ch16 ◽

2016 ◽

pp. 317-348 ◽

Cited By ~ 1

Author(s):

Jofre Carnicer ◽

Chris Wheat ◽

Maria Vives ◽

Andreu Ubach ◽

Cristina Domingo ◽

...

Keyword(s):

Climate Change ◽

Life History ◽

Global Climate Change ◽

Global Climate ◽

Trade Offs ◽

Climate Shifts

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The three dimensions of somatic evolution: Integrating the role of genetic damage, life‐history traits, and aging in carcinogenesis

Evolutionary Applications ◽

10.1111/eva.12947 ◽

2020 ◽

Vol 13 (7) ◽

pp. 1569-1580 ◽

Cited By ~ 1

Author(s):

Andrii I. Rozhok ◽

James DeGregori

Keyword(s):

Life History ◽

Life History Traits ◽

Three Dimensions ◽

Genetic Damage ◽

Somatic Evolution

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The role of life-history traits, selective pressure and hydrographic boundaries in shaping the genetic structure of the transparent goby,Aphia minuta

Marine Ecology ◽

10.1111/maec.12266 ◽

2015 ◽

Vol 37 (3) ◽

pp. 518-531 ◽

Cited By ~ 1

Author(s):

Paolo Ruggeri ◽

Andrea Splendiani ◽

Massimo Giovannotti ◽

Tatiana Fioravanti ◽

Giulia Occhipinti ◽

...

Keyword(s):

Life History ◽

Genetic Structure ◽

Life History Traits ◽

Selective Pressure

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Age-dependent effects of moderate differences in environmental predictability forecasted by climate change, experimental evidence from a short-lived lizard (Zootoca vivipara)

Scientific Reports ◽

10.1038/s41598-019-51955-7 ◽

2019 ◽

Vol 9 (1) ◽

Author(s):

G. Masó ◽

J. Kaufmann ◽

H. Clavero ◽

P. S. Fitze

Keyword(s):

Climate Change ◽

Life History ◽

Environmental Conditions ◽

Life History Traits ◽

Negative Effects ◽

Age Classes ◽

Environmental Predictability ◽

Common Lizard ◽

Zootoca Vivipara ◽

Age Dependent

Abstract Whether and how differences in environmental predictability affect life-history traits is controversial and may depend on mean environmental conditions. Solid evidence for effects of environmental predictability are lacking and thus, the consequences of the currently observed and forecasted climate-change induced reduction of precipitation predictability are largely unknown. Here we experimentally tested whether and how changes in the predictability of precipitation affect growth, reproduction, and survival of common lizard Zootoca vivipara. Precipitation predictability affected all three age classes. While adults were able to compensate the treatment effects, yearlings and juvenile females were not able to compensate negative effects of less predictable precipitation on growth and body condition, respectively. Differences among the age-classes’ response reflect differences (among age-classes) in the sensitivity to environmental predictability. Moreover, effects of environmental predictability depended on mean environmental conditions. This indicates that integrating differences in environmental sensitivity, and changes in averages and the predictability of climatic variables will be key to understand whether species are able to cope with the current climatic change.

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Do females preferentially associate with males given a better start in life?

Biology Letters ◽

10.1098/rsbl.2011.1106 ◽

2012 ◽

Vol 8 (3) ◽

pp. 362-364 ◽

Cited By ~ 20

Author(s):

Andrew T. Kahn ◽

Julianne D. Livingston ◽

Michael D. Jennions

Keyword(s):

Life History ◽

Body Size ◽

Food Intake ◽

Compensatory Growth ◽

Life History Traits ◽

Adult Life ◽

Gambusia Holbrooki ◽

Developmental History ◽

Restricted Diet ◽

Adult Body

A poor start in life owing to a restricted diet can have readily detectable detrimental consequences for many adult life-history traits. However, some costs such as smaller adult body size are potentially eliminated when individuals modify their development. For example, male mosquitofish ( Gambusia holbrooki ) that have reduced early food intake undergo compensatory growth and delay maturation so that they eventually mature at the same size as males that develop normally. But do subtle effects of a poor start persist? Specifically, does a male's developmental history affect his subsequent attractiveness to females? Females prefer to associate with larger males but, controlling for body length, we show that females spent less time in association with males that underwent compensatory growth than with males that developed normally.

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